Total joint replacement (TJR) was one of the most revolutionary breakthroughs in joint surgery. The majority studies had shown that most implants could last about 25 years, anyway, there is still variation in the longevity of implants. In US, for all the hip revisions from 2012 to 2017 in the United States, 12.0% of the patients were diagnosed as aseptic loosening. Variable studies have showed that any factor that could cause a systemic or partial bone loss, might be the risk of periprosthetic osteolysis and aseptic loosening. Breast cancer is the most frequent malignancy in women, more than 2.1 million women were newly diagnosed with breast cancer, 626,679 women with breast cancer died in 2018. It's been reported that the mean incidence of THA was 0.29% for medicare population with breast cancer in USA, of which the incidence was 3.46% in Norwegian. However, the effects of breast cancer chemotherapy and hormonotherapy, such as aromatase inhibitors (AI), significantly increased the risk of osteoporosis, and had been proved to become a great threat to hip implants survival. In this case, a 46-year-old female undertook chemotherapy and hormonotherapy of breast cancer 3 years after her primary THA, was diagnosed with aseptic loosening of the hip prosthesis. Her treatment was summarized and analyzed. Breast cancer chemotherapy and hormonotherapy might be a threat to the stability of THA prosthesis. More attention should be paid when a THA paitent occurred with breast cancer. More studies about the effect of breast cancer treatments on skeleton are required

Introduction: Within a study group of 102 consecutive patients diagnosed with chondrosarcoma of the femur, tibia or humerus, an association with previously treated breast cancer was noted. We researched this proposed relationship. Methods: We retrospectively reviewed the records of all patients diagnosed histologically with chondrosarcoma of the femur, tibia or humerus over a six-year period at a supra-regional bone tumour unit. We identified those patients who had previously been treated for breast cancer. Results: There were 58 female and 44 male patients. The study group contained six females (10%, mean age 53 years) who had previously been treated for breast cancer, a higher proportion than would be expected. They were referred following identification of a solitary area of increased activity on routine screening with isotope bone scan, presumed to be a solitary bony metastasis. Most (86%) of this breast carcinoma sub-group had developed low-grade bone chondrosarcoma (Trojani grade 0.5-I) and only one case (14%) had developed high-grade chondrosarcoma (Trojani grade II–III). Discussion: A suspicious long bone lesion on bone scan in a patient with a past medical history of breast cancer must, therefore, not be assumed to be a metastasis without further investigation; the possibility of a chondral lesion should be considered. It is important that patients receive a full multidisciplinary team investigation prior to treatment in order to obtain the correct tissue diagnosis, as the management of these conditions is often different. Our study suggests there may be a relationship between patients previously treated for breast cancer and the development of subsequent chondrosarcoma

Over 80% of patients with advanced breast cancer will develop bone metastases for which there is no cure. Although thought to involve a complex cascade of cell-cell interactions, the factors controlling the development of bone metastases are still poorly understood. Osteoblasts may have an important role in mediating homing and proliferation of breast cancer cells to the bony environment. This study aimed to examine the potential role osteoblasts have in the migration of circulating tumour cells to bone and the factors involved in this attraction. Culture of osteoblasts and MDA-MB-231 breast cancer cells was performed. Breast cancer cell migration in response to osteoblasts was measured using Transwell Migration Inserts. Potential mediators of cell migration were detected using ChemiArray & ELISA assays. A luminometer based Vialight assay was used to measure breast cancer cell proliferation in response to factors secreted by osteoblasts. There was a 3-4 fold increase of MDA-MB-231 migration in response to osteoblasts. ChemiArray analysis of osteoblast-conditioned medium revealed a range of secreted chemokines including IL-6 & 8, TIMP 1 & 2 and MCP-1. Initially, MCP-1 was quantified at 282 pg/ml, but rose to over 9000 pg/ml when osteoprogenitor cells were differentiated into mature osteoblasts. Inclusion of a monoclonal antibody to MCP-1 in osteoblast-conditioned medium resulted in a significant decrease in breast cancer cell migration to osteoblasts. There was no significant change in proliferation of MDA-MB 231 cells when exposed to osteoblast-conditioned medium. Osteoblasts are capable of inducing breast cancer cell migration mediated at least in part by chemokine secretion. MCP-1 produced by the osteoblasts was shown to play a central role in mediating homing of the breast cancer cells. Increased understanding of the pathways involved in the development of bone metastases may provide new targets for therapeutic intervention

Purpose. Versican is a member of the large aggregating chondroitin sulfate proteoglycan family. Structurally, it is made up of an N-terminal G1 domain, a glycosamingoglycan attachment region, and a C-terminus containing a selectin-like (G3) domain. Versican is highly expressed in the interstitial tissues at the invasive margins of breast carcinoma and predictive of relapse and overall survival. The purpose of the study to investigate the role of of versican G3 domain in breast cancer bone metastasis. Method. Mouse mammary tumor cell lines 66c14, 4T07 and 4T1, and human breast cancer cell lines MT-1, MDA-MB-468 and MDA-MB-231 were stably transfected with versican G3. Effects of expression of versican G3 on cell proliferation, migration, invasion, cell cycle progression, and EGFR signaling were observed. The effects of G3 on cell viability in the conditional media of serum free, apoptotic agent C2-ceramide, and chemotherapeutic agents, including Docetaxel, Doxorubicin, Epirubicin were investigated. Colony formation assay and mammosphere formation assay were performed. A syngeneic orthotopic animal model was used to do the in vivo study. Results. In vitro, G3 enhanced breast cancer cell proliferation and migration by up-regulating EGFR signaling, and enhanced cell motility through chemotactic mechanisms to bone stromal cells, which was prevented by inhibitor AG 1478. Experiments in a syngeneic orthotopic animal model demonstrated that G3 promoted tumor growth and bone metastasis in vivo. Versican G3 domain enhanced tumor cell resistance to apoptosis in serum free medium, Doxorubicin, or Epirubicin by up-regulating pERK and GSK-3β (S9P), and promoted cell apoptosis induced by C2-ceramide or Docetaxel by enhanced expression of pSAPK/JNK and decreased GSK-3β (S9P). Versican expresses highly in the breast cancer mammosphere progenitor cells. Expression of versican G3 enhanced breast cancer self-renewal in vitro and in vivo. Conclusion. The activity of G3 on mouse mammary tumor cell growth, migration and its effect on spontaneous metastasis to bone in an orthotopic model was modulated by up-regulating the EGFR-mediated signaling. The dual roles of G3 in modulating breast cancer cell resistance to chemotherapeutic agents indicate a potential mechanism for breast cancer cell sensitivity or resistance to chemotherapy and EGFR therapy. GSK-3β (S9P) works as a key check point for the balance of apoptosis and anti-apoptosis. Over-expression of versican G3 domain enhanced breast cancer self-renewal, and resistant to chemo-drug treatments. Strategies designed to target versican mediated breast cancer self-renewal or GSK-3β (S9P) may lead to an effective therapy benefiting advanced breast cancer patients

Within a study group of 102 consecutive patients diagnosed at a supra-regional bone tumour unit with chondrosarcoma of the femur, tibia or humerus, an association with previously treated breast cancer was noted. There were 58 female patients and 44 male patients. The study group contained six females (10%, mean age 53 years) who had previously been treated for breast cancer, a higher proportion than would be expected. They were referred following identification of a solitary area of increased activity on routine screening with isotope bone scan, presumed to be a solitary bony metastasis. Most (86%) of this breast carcinoma sub-group had developed low-grade bone chondrosarcoma (Trojani grade 0.5-I) and only one case (14%) had developed high-grade chondrosarcoma (Trojani grade II-III). A suspicious long bone lesion on bone scan in a patient with a past medical history of breast cancer must, therefore, not be assumed to be a metastasis without further investigation; the possibility of a chondral lesion should be considered. It is important that patients receive a full multidisciplinary team investigation prior to treatment in order to obtain the correct tissue diagnosis, as the management of these conditions is often different. Our study suggests there may be a relationshipbetween patients previously treated for breast cancer and the development of subsequent chondrosarcoma

Common cancer metastases in bone include those derived from the breast or prostate. Associated with such metastases is considerable pain for the patient, a high incidence of pathological fractures (breast cancer metastases), and complications of spinal cord compression and paraplegia. Attention has focussed on the properties of breast or prostate cancer cells that permit them to migrate from their primary site and to invade and grow in bone. Both breast and prostate cancer cell lines and primary cancers exhibit a number of phenotypic properties in common with bone cells, and it has been proposed that these properties may contribute to a breast cancer’s capacity to establish and grow in bone. Once established in bone, these cancers may induce an osteosceloritic or osteolytic lesion. Osteolysis is also noted in the establishment of an osteosclerotic lesion that is frequently associated with prostate cancers. Thus, paramount for a cancer to establish in bone is the requirement for limited bone destruction, and the magnitude of associated bone destruction is a function of the cancer cell. Although it has been postulated that bone destruction by cancer cells is mediated directly by tumor cells, evidence indicates that breast cancer-induced bone destruction is mediated by the osteoclast. Support for the latter include: 1) breast cancers express cytokines [such as IL-1, IL-6, LIF, prostaglandin tumor necrosis factor and parathyroid hormone-related protein (PTHrP)] which can influence osteoclast formation; 2) histologic analyses of osteolytic lesions reveal tumor adjacent to osteoclasts resorbing bone; 3) and use of bisphosphonates, potent inhibitors of osteoclastic bone resorption, in women with breast cancer metastases to bone results in reduced skeletal morbidity. The interaction of cytokines expressed by cancer cells in the bone microenvironment and their action on osteoblast/stromal cells to induce differentiation of haematopoietic cells of the macrophage / monocyte lineage into osteoclasts is now understood. The mechanisms involved in cancer metastasis, osteoclast formation, and ultimately bone destruction will be discussed, along with the potential new therapies to limit bone destruction

Bone is the preferred site of metastases in women with breast cancer, which can cause skeletal-related events (SRE¡¦s) such as pathologic fractures. Bisphosphonates are the current standard of care for treatment of meta-static bone disease by preventing further bone destruction. Photodynamic therapy (PDT) has been applied successfully as a non-radiative treatment for malignancies. In PDT, light is delivered to a tumour after the administration of a photosensitiser. Earlier pre-clinical studies in a metastatic rat model have shown that PDT reduced the tumour burden in the vertebrae. The goal of this investigation was to study the effect of PDT on bisphosphonate pre-treated cancer in-vitro. Human breast cancer cells, MT-1, were cultured until confluent. The following groups were formed: no treatment; incubation with zoledronic acid (24h; 10 ƒÝmol) only; PDT treatment only and incubation with zoledronic acid and PDT treatment. Prior to light application 1 microg/ml of the photosensitiser BPD-MA was added. PDT was performed with a light dose of 1J and 10 J. The cells were stained with a live/dead stain and analyzed by fluorescence microscope and flowcytometry. Incubation of the MT-1 carcinoma cells with bisphosphonate zoledronic acid resulted in a significantly higher number of dying cells following PDT treatment when compared cells that were not treated by zoledronic acid (p< 0.05). When comparing cell groups that did not undergo PDT treatment the incubation with zoledronic acid alone did not have a statistically significant effect on cell survival twenty-four hours following zoledronic acid administration. In-vitro, breast cancer cells appear more susceptible to PDT after they have been incubated with the zoledronic acid. Zoledronic acid, a potent bisphosphonate, inhibits farsenylpyrophosphate (FPP) which is involved in farsenylation of cell membrane proteins. The inhibition of FPP may cause a reduced effect of PDT on cell rescue. The treatment with bisphosphonates seems to have a synergistic effect with PDT treatment. As such, light dosimetry in PDT treatment may need to take into account potential therapeutic interactions between PDT and current medical therapies in the treatment of skeletal metastatic burden

Activated leukocyte cell adhesion molecule (ALCAM) has been shown to be involved in cell migration and in both homotypic/homophilic adhesion and heterotypic/heterophilic adhesion. It has been shown that a decreased level of ALCAM expression in human breast cancer tissue correlated with a significantly poor prognosis. Aim: Previous studies have looked at nodal and general metastasis; in this analysis using an expanded tumour cohort, we, for the first time, specifically identified patients who went on to develop skeletal metastasis. Primary breast cancer tissues (n=234) and non-neoplastic mammary tissue (n=34) were collected and patients were routinely followed up clinically after surgery. The immunohistochemical distribution and location of ALCAM was assessed in the normal breast tissue and carcinoma and the level of ALCAM transcripts in the frozen tissue was determined using real-time quantitative PCR. The results were analysed against the clinical data looking principally at the levels in patients with skeletal metastasis but also in relation to the nodal involvement, ER status, Nottingham Prognostic Index and survival. The immunohistochemical staining intensity shows that the cytoplasmic staining in normal breast tissue is significantly stronger than that in breast cancer tissue (p=0.023) and also the breast cancer tissue from patients who went onto develop skeletal metastasis (p=0.048). The ALCAM transcript levels were the lowest in patient with skeletal metastasis (p=0.0048) compared to those who were disease free. Significantly lower transcript levels were also found the patients who developed local recurrence (p=0.040), and who died from breast cancer (p= 0.0075). Other indicators of poor prognosis show a significant difference: patients with moderate and poor NPI prognosis lower levels than those with a good prognosis (p=0.05, p=0.0089 respectively); and lower in patients with a positive ER status than those ER negative patients (p=0.043). This study has for the first time shown that the patient who went on to develop skeletal metastasis tended to have the lowest levels of ALCAM transcript in their breast cancers. This fact could be used to provide patient with a more accurate prognosis and identify those who may benefit enhanced monitoring and early medical and orthopaedic treatment

Purpose: To identify local and systemic risk factors for the development of pathologic fractures and determine the value of the Tokuhashi Score in patients with known asymptomatic lytic spinal metastases secondary to breast cancer. Method: A prospective cohort study was carried out on 51 patients with lytic spinal metastases secondary to breast cancer identified as having either purely lytic or mixed disease. The Tokuhashi Score, developed to estimate life expectancy for patients with symptomatic spinal metastases being considered for surgery, was calculated for each of the 51 patients. The score consists of six parameters each of which is rated from 0–2. Initial and follow up CT images and pain and function data were obtained every four months for one year. A final review of patient charts was performed two years later to determine if each patient was still alive. Results: Tumour burden was predominantly blastic and mixed rather than lytic. There was no progression of lytic tumour burden over the 12-month period, however there was progression of blastic tumour load. Eleven compression fractures occurred in seven patients; no burst fractures occurred during the study. No correlation between tumour burden (lytic, blastic or both) and risk of fracture was found. A weak correlation between bone mineral density and length of time elapsed from diagnosis of metastatic disease and fracture risk was found. Pain and functional data results were not related to tumour load. Tokuhashi score did correlate with survival, however actual survival in our population was far longer than that found in previous studies. Negative progesterone status was found to be negatively associated with life expectancy. Conclusion: Metastatic vertebral disease in breast cancer patients has a predominantly blastic and mixed appearance with current pharmacologic therapies. Pathologic fracture risk appears to be more related to bone mineral density than tumour burden in this population. Tokuhashi score does correlate with life expectancy in patients with relatively asymptomatic spinal metastases. Having a progesterone receptor negative tumour has a significantly negative impact on life expectancy

Background. Angiosarcoma is a rare complication of breast cancer treatment. In order to define predictors, clinical presentation, and outcome, we characterized a population-based 50-year cohort of angiosarcomas after breast cancer. Methods. Clinical data were collected from all females with previous breast cancer who developed angiosarcomas/lymphangiosarcomas on the thoracic wall/upper extremity between 1958 and 2008 in the Southern Swedish health care region. Results. In total, 31 angiosarcomas developed at a median age of 71 years. The patients formed two distinct groups; 14 females treated for breast cancer with radical mastectomy and radiotherapy 1949-1988 developed angiosarcomas in edematous arms (Stewart-Treves syndrome) after median 11 years, and 17 females treated by segmental resection, anti-hormonal treatment and radiotherapy 1980-2005 developed angiosarcomas in the irradiated field on the thoracic wall after median 7.3 years. The clinical presentations were heterogeneous and included hematoma-like lesions, multiple bluish-reddish nodules, and asymptomatic lumps. The overall 5-year survival was 16 %. Conclusions. In this population-based cohort, the early angiosarcomas developed in edematous arms after radical mastectomies, whereas more recent cases occurred after a shorter time period in the irradiated fields following breast conserving surgery. We conclude that the clinical presentation of angiosarcomas has changed, parallel with altered treatment principles for breast cancer

Purpose: Bony metastases in vertebrae secondary to breast cancer can result in osteolysis and an increase in skeletal related events. Bisphosphonates (BP) are the current standard of care for breast cancer patients with skeletal disease. Photodynamic therapy (PDT) is a non-radiative treatment, which has been successfully applied to various malignancies and shown to successfully ablate vertebral human breast cancer (MT1) metastases in a murine model. Previous in-vitro study has shown that pre-treatment of MT-1 cells with the BP zoledronic acid (Zometa. ®. ) renders them more susceptible to PDT. The aim of this study was to evaluate the influence of pre-treatment with BPs on the effect of PDT treatment on tumour ablation in metastatically involved vertebrae in vivo. Method: Metastases were induced in fourteen 5–6 weeks old female athymic rats (Hsd:RH-Foxn1rnu) by intra-cardiac injection of 2x10^6 MT-1 cells. Four groups were formed:. control, no treatment;. BP only;. PDT only;. BP and PDT combined. Seven days after MT-1 injection 60 μg/kg of zoledronic acid was injected. PDT treatment was administered on day 14 using the photosensitizer BPD-MA (1.0 mg/kg; Visudyne). Fifteen minutes later, laser-light (690nm; 75J) was administered to the lumbar vertebrae. The rats were euthanized 7 days after PDT treatment. A total of 45 vertebrae were evaluated using a histomorphometric program (GENIE™, Aperio) to assess tumour burden. Statistical analyses were performed using a one-way ANOVA with a Tukey post hoc test. A p-value p< .05 was considered to be statistically significant. Results: The total The total tumour burden within vertebrae of rats pre-treated with BP and/or PDT was significantly lower compared to the control rats (p< .001). In addition, the PDT alone treated group demonstrated significantly less tumour burden than the combined BP+PDT group. In the control and BP-only groups, large tumours were found to include regions of necrosis. The PDT treatment groups (PDT and BP+PDT) exhibited areas of necrosis throughout the entire vertebral bodies with adjacent formation of granulation tissue. Conclusion: BP, PDT and combined BP+PDT treatments resulted in a lower overall tumour burden at day 21 post MT-1 cell injection compared to control rats. A surprising increased level of tumour burden was found in comparing the combined treatment group to the PDT-only group. These findings are in contrast to previous in-vitro results, where the pre-treatment with BPs made the cells more susceptible to PDT. Pre-treatment with BP affects both the bone and tumour cells, and as such may induce different cellular pathways in response to PDT treatment. However, the ability of PDT applied at day 14 to cause a similar reduction in tumour burden compared to BP treatment at day 7, suggests its ability to rapidly and effectively ablate the tumour within the bone, even in the presence of BP

Introduction: Breast cancer is the most frequently diagnosed cancer in western countries and bone metastases of breast cancer cause significant morbidity. Tumor growth and progression requires the formation of new blood vessels, a process called angiogenesis. Angiogenesis is a complex multifactorial process involving a variety of proangiogenic and proteolytic enzyme activators and inhibitors. The most important regulator of angiogenesis is vascular endothelial growth factor (VEGF), which is overexpressed in several tumor tissues. The single nucleotide polymorphism 1498 C/T of VEGF was associated with increased plasma levels of VEGF. In this case controlled study, we analyzed the role of this polymorphism in bone metastasis of breast cancer. Material and Methods: We genotyped 839 female breast cancer patients. The study was performed according to the Austrian Gene Technology Act and has been approved by the Ethical Committee of the Medical University Graz. According to breast cancer staging, patients were divided in three groups, representing patients without metastases (n = 708), those with metastases other than bone (n = 69), and those with bone metastasis (n = 62). Results: Frequency of the 1498 CC genotype of VEGF was significantly lower among patients with bone metastases (6.5%) than among those with other metastases (23.2%; p=0.005) or no metastases (23.4%; p=0.002). Odds ratio of the CC genotype for bone metastases was 0.22 (95% CI 0.08 – 0.61; p = 0.004). Conclusion: We conclude that the homozygous 1498 C genotype of VEGF may be protective against development of bone metastasis in breast cancer patients

Summary. Photodynamic therapy with ICG lactosome and near-infrared light has phototoxic effects on human breast cancer cells. With the same total energy, phototoxic effects depend on output of irradiation light rather than irradiation time. Introduction. The phototoxic effects of indocyanine green (ICG) and near-infrared light have been studied in various fields. Plasma proteins bind strongly to ICG, which is followed by rapid clearance by the liver, resulting in no tumor selectivity after systemic administration. We have proposed a novel nanocarrier labeled with ICG (ICG lactosome) that has tumor selectivity due to its enhanced permeation and retention (EPR) effect. The aim of this study was to investigate in vitro phototoxic effects and to optimise the irradiation conditions by changing the output and time of near-infrared light as excitation light. Materials and Methods. MDA-MB-231 human breast cancer cells were seeded (2 × 10. 4. cells per well) into 96-well plates. The plates were divided (16 wells/treatment) into the following groups: control/untreated, only ICG lactosome administration (ICG lactosome), only laser irradiation (laser), and ICG lactosome administration plus laser irradiation (photodynamic therapy: PDT). Cells in the control, laser, and PDT groups were incubated in 100 μl medium for 24 h. Cells in the ICG lactosome group were incubated in 100μl medium containing 1 mg ICG lactosome for 24 h. The following day, laser group samples with 100 μl phosphate buffer solution (PBS) and PDT group samples with PBS containing 1 mg ICG lactosome were treated with laser irradiation using a near-infrared medical diode laser (λ = 810 ± 20 nm). Irradiation conditions were set to low output-/-long time (31 mW/cm. 2. -/-600 sec) and high output-/-short time (235 mW/cm. 2. -/-80 sec). The total energy density of both was 18.8 J/cm. 2. The media in these irradiated wells was replaced with fresh medium every 24 h post-irradiation. The control and ICG lactosome group wells received fresh medium every 24 h. Cells in all groups were incubated for 96 h post-treatment. Microscopic examination was performed, and cell viability was measured using a WST-1 assay every 24 h after treatment for 96 h. Mean absorbance in the WST-1 assay (an indicator of cell viability) was analyzed using the Tukey-Kramer test for comparison of multiple groups. Results. Cell viability in the high output-/-short time PDT group was significantly lower than that in the low output-/-long time PDT group at 96 h after treatment. Cell viability in the two PDT groups was significantly lower than that in the other 3 groups at each time point. Irradiation increased the temperature by 25.5°C, 11.1°C, 8.1°C, and 7.1°C in the high output-/-short time PDT, low output-/-long time PDT, high output-/-short time laser, and low output-/-long time laser groups, respectively. Discussion/Conclusion. PDT with ICG can penetrate deeper into tissue than that with Photofrin (the most widely used photosensitizer in clinical PDT), because ICG absorbs light at longer wavelengths than Photofrin. With the same total energy, inhibition of cell viability depended on irradiation output rather than irradiation time. It is reported that hyperthermia may contribute to the PDT effect if the surface irradiance exceeds 200 mW/cm. 2. We therefore believe that photodynamic and hyperthermal effects occurred in the high output-/-short time PDT group, and conclude that excitation light output rather than irradiation time may affect the photodynamic effect

Introduction: Due to an increase in survival skeletal metastasis becomes a significant factor on life quality in carcinoma patients. Also shown in publications of the last years the surgical approach and the expected prognosis are very much based on the primary. Especially patients with breast carcinoma show very long survival times, which must be considered in choosing the adequate surgical approach. Aim of this study was to proof that on a large collective of consecutively treated patients.

Methods: Between 1980 and 2005 115 patients with metastatic disease to the bone due to breast carcinoma had been surgically treated. In 112 female and 3 male the mean age at surgery was 58 years (17–84 years). Retrospectively location and extension of the disease, symptoms, surgical approaches, complications, recurrencies and survival time had been evaluated.

Results: The most often peformed procedure was a decompression with or without stabilisation of the spine in 42 cases. Four vertebroplasties had been additionally performed. The proximal femur had to be reconstructed with an endoprotsthetic device in 24 cases, an endoprostehtic reconstruction of the humerus was necessary in 2 patients, of the pelvis in one case. One diaphyseal prothesis was implanted. Two resctions/amputation without any reconstruction had to be performed. In 20 cases a compound osteosynthesis, in 19 cases a biopsy only was done. In most of the cases postsurgical radiation was administered in some cases preoperative radiation had been applied. Follow-up was done 1 to 26 years after surgery (average 11.7 years).

Many pateints showed an extented survival despite disseminated disease with a high and quality of life. Radical resection as tried in a few patients did not proof to be beneficial regarding the prognsotic effect.

Conclusions: Patients with skeletal manifestations of breast carcinoma showed long survival times despite extented disease. The intralesional surgical approach including radiation therapy showed a better functional outcome in comparison to radical procedures with no disadvantage in survival time or local recurrencies.

Aims. Acridine orange (AO) demonstrates several biological activities. When exposed to low doses of X-ray radiation, AO increases the production of reactive radicals (radiodynamic therapy (AO-RDT)). We elucidated the efficacy of AO-RDT in breast and prostate cancer cell lines, which are likely to develop bone metastases. Methods. We used the mouse osteosarcoma cell line LM8, the human breast cancer cell line MDA-MB-231, and the human prostate cancer cell line PC-3. Cultured cells were exposed to AO and radiation at various concentrations followed by various doses of irradiation. The cell viability was then measured. In vivo, each cell was inoculated subcutaneously into the backs of mice. In the AO-RDT group, AO (1.0 μg) was locally administered subcutaneously around the tumour followed by 5 Gy of irradiation. In the radiation group, 5 Gy of irradiation alone was administered after macroscopic tumour formation. The mice were killed on the 14th day after treatment. The change in tumour volume by AO-RDT was primarily evaluated. Results. The viability of LM8, MDA-MB-231, and PC-3 cells strongly decreased at AO concentration of 1.0 μg/ml and a radiation dose of 5 Gy. In xenograft mouse model, the AO-RDT also showed a strong cytocidal effect on tumour at the backside in osteosarcoma, breast cancer, and prostate cancer. AO-RDT treatment was more effective for tumour control than radiotherapy in breast cancer. Conclusion. AO-RDT was effective in preventing the proliferation of osteosarcoma, breast cancer, and prostate cancer cell lines in vitro. The reduction in tumour volume by AO-RDT was also confirmed in vivo. Cite this article: Bone Joint Res 2022;11(10):715–722

Breast cancer is the most frequent malignancy in women with an estimation of 2.1 million new diagnoses in 2018. Even though primary tumours are usually efficiently removed by surgery, 20–40% of patients will develop metastases in distant organs. Bone is one of the most frequent site of metastases from advanced breast cancer, accounting from 55 to 58% of all metastases. Currently, none of the therapeutic strategies used to manage breast cancer bone metastasis are really curative. Tailoring a suitable model to study and evaluate the disease pathophysiology and novel advanced therapies is one of the major challenges that will predict more effectively and efficiently the clinical response. Preclinical traditional models have been largely used as they can provide standardization and simplicity, moreover, further advancements have been made with 3D cultures, by spheroids and artificial matrices, patient derived xenografts and microfluidics. Despite these models recapitulate numerous aspects of tumour complexity, they do not completely mimic the clinical native microenvironment. Thus, to fulfil this need, in our study we developed a new, advanced and alternative model of human breast cancer bone metastasis as potential biologic assay for cancer research. The study involved breast cancer bone metastasis samples obtained from three female patients undergoing wide spinal decompression and stabilization through a posterior approach. Samples were cultured in a TubeSpin Bioreactor on a rolling apparatus under hypoxic conditions at time 0 and for up to 40 days and evaluated for viability by the Alamar Blue test, gene expression profile, histology and immunohistochemistry. Results showed the maintenance and preservation, at time 0 and after 40 days of culture, of the tissue viability, biological activity, as well as molecular markers, i.e. several key genes involved in the complex interactions between the tumour cells and bone able to drive cancer progression, cancer aggressiveness and metastasis to bone. A good tis sue morphological and microarchitectural preservation with the presence of lacunar osteolysis, fragmented trabeculae locally surrounded by osteoclast cells and malignant cells and an intense infiltration by tumour cells in bone marrow compartment in all examined samples. Histomorphometrical data on the levels of bone resorption and bone apposition parameters remained constant between T0 and T40 for all analysed patients. Additionally, immunohistochemistry showed homogeneous expression and location of CDH1, CDH2, KRT8, KRT18, Ki67, CASP3, ESR1, CD8 and CD68 between T0 and T40, thus further confirming the invasive behaviour of breast cancer cells and indicating the maintaining of the metastatic microenvironment. The novel tissue culture, set-up in this study, has significant advantages in comparison to the pre-existent 3D models: the tumour environment is the same of the clinical scenario, including all cell types as well as the native extracellular matrix; it can be quickly set-up employing only small samples of breast cancer bone metastasis tissue in a simple, ethically correct and cost-effective manner; it bypasses and/or decreases the necessity to use more complex preclinical model, thus reducing the ethical burden following the guiding principles aimed at replacing/reducing/refining (3R) animal use and their suffering for scientific purposes; it can allow the study of the interactions within the breast cancer bone metastasis tissue over a relatively long period of up to 40 days, preserving the tumour morphology and architecture and allowing also the evaluation of different biological factors, parameters and activities. Therefore, the study provides for the first time the feasibility and rationale for the use of a human-derived advanced alternative model for cancer research and testing of drugs and innovative strategies, taking into account patient individual characteristics and specific tumour subtypes so predicting patient specific responses

Photodynamic therapy (PDT) uses the strong cytotoxicity of singlet oxygen and hyperthermia produced by irradiating excitation light on a photosensitizer. The phototoxic effects of indocyanine green (ICG) and near-infrared light (NIR) have been studied in different types of cancer cells. Plasma proteins bind strongly to ICG, followed by rapid clearance by the liver, resulting in no tumor-selective accumulation after systemic administration. Kimura et al. have proposed using a novel nanoparticle labeled with ICG (ICG-lactosome) that has tumor selective accumulation owing to enhanced permeability and retention (EPR) effect. In this study, we investigated the efficacy of PDT using ICG-lactosome and NIR for a bone metastatic mouse model of breast cancer. Cells from the human breast cancer cell line, MDA-MB-231 were injected into the right tibia of 26 anesthetized BALB/C nu/nu mice at a concentration. The mice were then randomly divided into three groups: the PDT group (n = 9), the laser (laser irradiation only) group (n = 9), and the control group (n = 8). PDT was performed thrice (7, 21, 35 days after cell inoculation) following ICG-lactosome administration via the tail vein 24 hours before irradiation. The mice were percutaneously irradiated with an 810-nm medical diode laser for 10 min. In the laser group, mice were irradiated following saline administration 24 hours before irradiation. Radiographic analysis was performed for 49 days after cell inoculation. The area of osteolytic lesion was quantified. The right hind legs of 3 mice were amputated 24 hours after the third treatment. Histological analysis was performed using hematoxylin-eosin staining and terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) staining of sagittal sections. The data was analyzed using Tukey-Kramer post-hoc test. P-value of <0.05 was considered significant. X-ray on day 49 of the three groups are considered. The area of osteolytic lesion in the PDT group (7.9 ± 1.2 mm. 2. : mean ± SD) was significantly smaller than that of the control (11.4 ± 1.4 mm. 2. ) and laser (11.9 ± 1.2 mm. 2. ) groups. In histological findings, we observed many TUNEL-positive cells in the metastatic tissue 24 hours after PDT. In the control and laser groups, TUNEL-positive cells were occasionally observed. We have previously reported the effect of ICG-lactosome-enhanced PDT on the cytotoxicity of human breast cancer cells in vitroand on the delay of paralysis in a rat spinal metastasis model. In this study, we demonstrated the inhibitory effect of ICG-lactosome-enhanced PDT on bone destruction caused by human breast cancer cells in vivo. This PDT induced apoptosis and necrosis in the tumor cells. Intralesional resection is often performed for spinal metastases in an emergency. The residual tumor may regrow and cause neurological deficits. We believe that ICG-lactosome-enhanced PDT can decrease the rate of local recurrence through reduction of the residual tumor. PDT with ICG-lactosome and NIR had an inhibitory effect on the growth of bone metastasis of a human breast cancer

Background. 70% of breast cancer patients develop metastatic bone deposits, predominantly spinal metasases. Adult Mesenchymal Stem Cells (MSCs) are multiprogenitor stem cells found within the bone marow which have the ability to self-renew and differentiate into multiple cell types. MSCs home specifically to tumour sites, highlighting their potential as delivery vehicles for therapeutic agents. However studies show they may also increase tumour metastatic potential. Aim. To investigate interactions between MSCs and breast cancer cells to further elucidate their role in the tumour microenvironment and hence understand factors involved in stimulating the formation of bone metastases. Methods. MSCs harvested from the iliac crest of healthy volunteers were grown for collection of conditioned medium (CM), containing all factors secreted by the cells. Breast cancer cell lines (T47D, SK-BR-3, MDA-MB-231) were then cultured in MSC CM +/− antibodies to TGFβ, VEGF, MCP-1 and CCL5 for 72hrs. Cell proliferation was assessed using an Apoglow. (r). assay and RNA harvested for analysis of changes in Epithelial Mesenchymal Transition specific gene expression : N-Cadherin, E-Cadherin, Vimentin, Twist, Snail. Results. A significant down regulation of breast cancer cell proliferation in the presence of MSC secreted factors was observed (p< 0.05). There was a dramatic increase in expression of EMT specific genes in both cell lines following exposure to MSC-secreted factors. Inclusion of antibodies to TGF, VEGF, MCP-1 and CCL5 inhibited the effect seen, suggesting these paracrine factors played a role in the elevated expression levels. Conclusion. MSCs clearly have a distinct paracrine effect on breast cancer epithelial cells, mediated at least in part through secretion of growth factors and chemokines. These factors play an important role in the metastatic cascade and may represent potential therapeutic targets to inhibit MSC-breast cancer interactions, helping to prevent the formation of bone metastases in cancer

Background. 70% of Breast Cancer patients develop metastatic bone deposits, predominantly spinal metasases. Adult Mesenchymal Stem Cells (MSCs) are multiprogenitor stem cells found within the bone marow which have the ability to self renew and differentiate into multiple cell types. MSCs home specifically to tumour sites, highlighting their potential as delivery vehicles for therapeutic agents. However studies show they may also increase tumour metastatic potential. Aims. The aim of this study was to investigate interactions between MSCs and breast cancer cells to further elucidate their role in the tumour microenvironment and hence understand factors involved in stimulating the formation of bone metastases. Methods. MSCs harvested from the iliac crest of healthy volunteers were grown for collection of conditioned medium (CM), containing all factors secreted by the cells. Breast cancer cell lines (T47D, SK-BR-3, MDA-MB-231) were then cultured in MSC CM +/− antibodies to TGFβ, VEGF, MCP-1 and CCL5 for 72hrs. Cell proliferation was assessed using an Apoglow(r) assay and RNA harvested for analysis of changes in Epithelial Mesenchymal Transition specific gene expression : N-Cadherin, E-Cadherin, Vimentin, Twist, Snail. Results. A significant down regulation of breast cancer cell proliferation in the presence of MSC secreted factors was observed (p<0.05). There was a dramatic increase in expression of EMT specific genes in both cell lines following exposure to MSC-secreted factors. Inclusion of antibodies to TGF, VEGF, MCP-1 and CCL5 inhibited the effect seen, suggesting these paracrine factors played a role in the elevated expression levels. Conclusion. MSCs clearly have a distinct paracrine effect on breast cancer epithelial cells, mediated at least in part through secretion of growth factors and chemokines. These factors play an important role in the metastatic cascade and may represent potential therapeutic targets to inhibit MSC-breast cancer interactions, helping to prevent the formation of bone metastases in cancer

Background: 70% of Breast Cancer patients develop metastatic bone deposits, predominantly spinal metasases. Adult Mesenchymal Stem Cells (MSCs) are multiprogenitor stem cells found within the bone marow which have the ability to self renew and differentiate into multiple cell types. MSCs home specifically to tumour sites, highlighting their potential as delivery vehicles for therapeutic agents. However studies show they may also increase tumour metastatic potential. Aims: The aim of this study was to investigate interactions between MSCs and breast cancer cells to further elucidate their role in the tumour microenvironment and hence understand factors involved in stimulating the formation of bone metastases. Methods: MSCs harvested from the iliac crest of healthy volunteers were grown for collection of conditioned medium (CM), containing all factors secreted by the cells. Breast cancer cell lines (T47D, SK-BR3) were then cultured in MSC CM +/− antibodies to TGFβ, VEGF, MCP-1 and CCL5 for 72hrs. Cell proliferation was assessed using an Apoglow. ®. assay and RNA harvested for analysis of changes in Epithelial Mesenchymal Transition specific gene expression: N-Cadherin, E-Cadherin, Vimentin, Twist, Snail. Results: A significant down regulation of breast cancer cell proliferation in the presence of MSC secreted factors was observed (p< 0.05). There was a dramatic increase in expression of EMT specific genes in both cell lines following exposure to MSC-secreted factors. Inclusion of antibodies to TGF, VEGF, MCP-1 and CCL5 inhibited the effect seen, suggesting these paracrine factors played a role in the elevated expression levels. Conclusion: MSCs clearly have a distinct paracrine effect on breast cancer epithelial cells, mediated at least in part through secretion of growth factors and chemokines. These factors play an important role in the metastatic cascade and may represent potential therapeutic targets to inhibit MSC-breast cancer interactions, helping to prevent the formation of bone metastases in cancer