•We have developed the first induced large animal glioma model.•Ciclosporine was used for the immunomodulation.•The time to develop a tumor is short and reproducible with U87 MG cells, allowing ...preclinical studies.•Pig and human brains are macroscopically similar, providing realistic condition for convection enhanced-delivery protocol.
The prognosis of glioblastoma remains poor despite significant improvement in cytoreductive surgery, external irradiation and new approach of systemic treatment as antiangiogenic therapy. One of the issues is the low concentration in the infiltrated parenchyma of therapeutic agent administered intravenously mainly due to the blood–brain barrier. An intracerebral injection is advocated to overpass this barrier, this kind of administration need a low flow and continuous injection. The development of sophisticated implanted devices for convection-enhanced delivery is a mandatory step to have a controlled released of a therapeutic agent in glioblastoma treatment. Before testing such a device in a clinical trial a serious preclinical studies are required, in order to test it in realistic conditions we have develop the first induced high grade glioma model in a non-rodent animal: the pig. 21 pigs have been implanted in the parietal lobe with human glioblastoma cell lineage under a chemical immunosuppression by ciclosporine. A MRI follow up was then realized. 15 pigs have been implanted with U87MG, 14 have presented a macroscopic significant tumor, with radiological and anatomapathological characteristics of high grade glioma. 6 pigs were implanted with G6, stem-like cells tumors of glioblastoma, 1 pig develops a macroscopic tumor. This is the first reproducible glioma model in a large animal described, it open the way to preclinical studies to test implanted devices in anatomic realistic conditions, without the ethical issues of a primate use.
Surgery is the first line therapy for glioma. However, glioma recurs in 90 % of the patients in the resection margin. The impact of surgical brain injury (SBI) on glioma recurrence is largely ...overlooked. Herein, we review some of the mechanisms involved in tissue repair that may impact glioma recurrence at the resection margin. Many processes or molecules involved in tissue repair after brain injury are also critical for glioma growth. They include a wide array of secreted growth factors, cytokines and transcription factors including NFКB and STAT3 which in turn activate proliferative and anti-apoptotic genes and processes such as angiogenesis and inflammation. Because some residual glioma cells always remain in the tumor resection margin, there are now compelling arguments to suggest that some aspects of the brain tissue response to SBI can also participate to glioma recurrence at the resection margin. Brain tissue response to SBI recruits angiogenesis and inflammation that precede and then follow tumor recurrence at the resection margin. The healing response to SBI is double edged, as inflammation is involved in regeneration and healing, and has both pro- and anti-tumorigenic functions. A promising therapeutic approach is to normalize and re-educate the molecular and cellular responses at the resection margin to promote anti-tumorigenic processes involved in healing while inhibiting pro-tumorigenic activities. Manipulation of the inflammatory response to SBI to prevent local recurrence could also enhance the efficacy of other therapies such as immunotherapy. However, our current knowledge is far from sufficient to achieve this goal. Acknowledging, understanding and manipulating the double-edged role played by SBI in glioma recurrence is surely challenging, but it cannot be longer delayed.
Stage IV non-small cell lung cancer (NSCLC) is considered incurable; however, some patients with only few metastases may benefit from treatment with a curative intent. We aimed to identify the ...prognostic factors for stage IV NSCLC with synchronous solitary M1.
A database constructed from our weekly multidisciplinary thoracic oncology meetings was retrospectively screened from 1993 to 2012. Consecutive patients with NSCLC stages I to IV were included.
Of the 6,760 patients found, 4,832 patients were studied. Among the 1,592 patients (33%) with stage IV NSCLC, 109 (7%) had a synchronous solitary M1. Metastasis involved the brain in 64% of patients. Median overall survival was significantly longer in synchronous solitary M1 than in other stage IV (18.9 months, interquartile range IQR: 9.9 to 34.6 months versus 6.1 months, IQR: 2.3 to 13.7 months, respectively, p < 10
). Among patients with synchronous solitary M1, 90 (83%) received a local treatment with curative intent at the primary and metastatic sites. Factors independently associated with survival were age older than 63 years (hazard ratio HR 1.63, 95% confidence interval CI: 1.01 to 2.63), Performance status of 3 or 4 (HR 7.91, 95% CI: 2.23 to 28.03), use of chemotherapy (HR 0.38, 95% CI: 0.23 to 0.64), and operation conducted at both sites (HR 0.35, 95% CI: 0.19 to 0.65).
Synchronous solitary M1 treated with chemotherapy and operation at both sites resulted in better survival. Survival of NSCLC with synchronous solitary M1 was more similar to stage III than other stage IV NSCLCs. The eighth TNM classification takes this into account by distinguishing between stages M1b and M1c.
Background
Though the craniovertebral junction is often abnormal in children with Crouzon’s syndrome, no study had measured accurately the size of their foramen magnum (FM).
Patients and methods
We ...compared the FM size (area, diameters) on computed tomography examination in 21 children with a genetically confirmed Crouzon’s syndrome prior to any surgery and in 23 control children without craniofacial abnormalities. We extrapolated the growth pattern in both groups.
Results
We found a statistically significant smaller FM area (
p
= 0.0228), FM sagittal diameter (
p
= 0.0287), and FM sagittal posterior diameter (
p
= 0.0023) in children with Crouzon’s syndrome. No differences were detected with regard to the transversal diameter. Hydrocephalus in children with Crouzon’s syndrome was associated with a small FM area (
p
= 0.05), small sagittal diameter (
p
= 0.023), small sagittal posterior diameter (
p
= 0.0173), and reduced transversal diameter (
p
= 0.03985). No association of the aforementioned findings was found with the position of the cerebellar tonsils or the lambdoid suture functional state (open or fused). Comparable results were observed among the two genetic forms (exon 8 or 10 mutations). Concerning the growth pattern, a first phase of rapid increase and a second phase of slow increase could be recognized in all the measurements in both populations, though with some significant differences.
Discussion and conclusions
The growth of FM follows a biphasic pattern in both Crouzon’s and control children. The sagittal diameter and the global size of the FM are mostly affected in children with Crouzon’s syndrome. The small FM, especially its posterior part, is likely to play a key role in the physiopathology of hydrocephalus.
Les gliomes de haut-grades sont des les tumeurs primitives les plus fréquentes du système nerveux central. Le traitement de cette pathologie associe chirurgie, radiothérapie et chimiothérapie. Les ...principales faiblesses de ces traitements sont le caractère infiltrant de la tumeur au sein d’un parenchyme hautement fonctionnel, l’existence de la barrière hémato-encéphalique limitant le passage trans-vasculaire de la chimiothérapie et la radiorésistance naturelle des cellules gliomateuses.Parmi les stratégies proposées pour outre-passer cette barrière hémato-encéphalique, une injection directe au sein du parenchyme a été évoquée. Afin d’optimiser cette délivrance le concept d’infusion convective a été développé, il s’agit d’une injection intra-parenchymateuse à un débit lent et contrôlé.Le bevacizumab est un anticorps dirigé contre le VEGF-A, un des principaux facteurs angiogéniques. Le but de ce traitement est de lutter contre l’ angiogénèse et de freiner la croissance tumorale.Dans un premier temps, la pharmacocinétique d’une injection intracérébrale de bevacizumab a été étudiée en comparaison avec une administration systémique plus classique. Les résultats permettent de mettre en évidence une concentration locale équivalente avec des concentrations systémiques beaucoup plus faibles avec une injection intra-tumorale. Un point important de cette étude est que la concentration dans l’hémisphère controlatéral à l’injection est aussi importante que lors d’une injection systémique.Puis l’efficacité d’une injection intratumorale de bevacizumab a été comparée à un traitement systémique sur un modèle de gliome chez la souris. L’efficacité du traitement est claire sur la survie de l’animal avec un avantage pour une injection intratumorale par rapport à une injection systémique. D’un point de vue microscopique cet avantage de survie peut être corrélé à une angiogénèse et une prolifération tumorale moins importante an cas d’injection directe au sein de la tumeur.Contrairement aux études pré-cliniques chez les rongeurs, les principaux essais cliniques n’ont pas permis de mettre en évidence un avantage d’une injection intra-tumorale directe. Principalement du à une mauvaise délivrance liée à des fuites et des reflux. Une des limites du modèle petit animal est l’absence de sillon cortical, vecteur de fuite. Le développement d’un modèle de gliome anatomiquement pertinent permettrait de simuler au mieux ces fuites et simultanément la mise au point de technologies de délivrance implantable à l’échelle humaine. Nous avons donc développé le premier modèle de gliome chez le porc. L’immunotolérance a été induite par un traitement par ciclosporine, des cellules de gliomes humains U87 et G6 ont été implantés, permettant se développer des tumeurs.Afin de dépister une mauvaise délivrance et anticiper les fuites ou les reflux, nous avons étudié les profils de pression le long de la ligne d’injection corrélés à l’existence de fuites ou de reflux. Nous avons pu identifier un profil pressionnel typique d’une injection de qualité. Les injections ne répondant pas à ces critères ont systématiquement conduits à des fuites ou reflux.L’étape suivante a été l’injection au sein d’une tumeur chez des porcs grâce à un système innovant implanté. Cette injection a été possible sans complication infectieuse avec une bonne tolérance locale et neurologique.La dernière étape de ce travail est l’étude anatomique de la diffusion d’un colorant injecté par une technique d’infusion convective. Cette étude s’intéressait notamment à la diffusion depuis la corona-radiata vers les différentes voies de substance blanche. La diffusion est anisotrope le long des fibres de substance blanche cependant la diffusion suit des voies différentes en fonction de la position du cathéter par rapport à elle. L’injection semble ouvrir des voies d’impédances rhéologiques faibles préférentielles nécessitant une adaptation anatomique aux voies qui seront la cible du traitement.
High grade gliomas are the most frequent primitive central nervous system tumor. The standard treatment is an association of surgery, radiotherapy and chemotherapy. The mains issues with these treatments are the infiltrative properties of the tumour in a highly functional parenchyma, the blood-brain barrier limiting the transvascular transport of chemotherapy and the inherent radioresistance of glioma cells.Upon different strategy to overpass the blood-brain barrier, a direct injection in the brain was advocated. In order to maximize this delivery, the concept of convection enhanced delivery was developed; it consists in a direct injection in the parenchyma with a low flow-rate.Bevacizumab is an anti-VEGF A antibody, VEGF is one of the most important angiogenic factors. The goal of this treatment is to inhibit the angiogenesis and slow down the tumor growth.We propose to study the use of this antibody in a direct intra-cerebral infusion.First, we focalize on the pharmacokinetic properties of an intratumoral injection by convection –enhanced delivery compared to a systemic administration. This shows an equivalent intratumoral concentration with systemic concentrations significantly lower with the intra-tumoral injection. An important result is the similar concentration in the controlateral hemisphere with the two routes of infusion. Convection-enhanced delivery is suitable to carry far from the infusion site high molecular weight proteins. An intra-tumoral bevacizumab may theoretically provide similar efficiency with less systemic side-effect.Then, the efficiency of an intra-tumoral infusion of bevacizumab is compared to a systemic injection on a mouse glioma model. In terms of survival the intra-tumoral treatment is significantly more efficient with an important decrease of angiogenesis and tumoral proliferation.If convection-enhanced delivery rodent study were promising, clinical trials failed to show any efficiency of intra-tumoral injection mainly due to inadequate delivery secondary to backflows and leakages. One of the limits of the rodent model is the absence of cortical sulci, main leakage provider. The development of a model anatomically relevant could simulate real conditions of injection and develop implantable device of injection in realistic conditions. We have developed the first induced model of glioma in a large animal. We choose the pig for the similarity of its brain anatomy and its size. The animals have been treated with ciclosporin to induce an immunosuppression, human glioma cells have been implanted, leading to the development of brain tumor.We have studied the pressure on the infusion line and correlate it to backflow and leakage. We have identified a pattern of pressure for successful infusion. Different pressure pattern have systematically led to backflow or leakage. These pressures criteria could permit to us an early detection of inadequate infusion to replace the catheter and avoid the failure of precedent clinical trials.Next step have been the intra-tumoral injection via an implanted device on pig glioma model. No infectious complication has been related with a good local and neurologic tolerance. The injections have led to a relevant diffusion through the tumor with a rapid flow to the periphery due to the interstitial pressure gradient between the tumor and the periphery.Last step of this work have been the anatomical study of a dye distribution by convection-enhanced delivery in a human encephalon. Indeed if pig brain is similar to human brain, human white matter structure is unique. This work is focalized on the diffusion from the corona-radiata to the main white matter tracts. The distribution is anisotropic following white matter but the diffusion is different depending on the position of the catheter. The infusion seems to open low rheological impedance paths the position of the catheter have to be adapted to the white matter tract to target.
Viewing tumors as ecosystems offers the opportunity to consider how ecological concepts can be translated to novel therapeutic perspectives. The ecological trap concept emerged approximately half a ...century ago when it was observed that animals can prefer an environment of low quality for survival over other available environments of higher quality. The presence of such a trap can drive a local population to extinction. The cancer cell trap concept is the translation of the ecological trap into glioma therapy. It exploits and diverts the invasive potential of glioma cells by guiding their migration towards specific locations where a local therapy can be delivered efficiently. This illustrates how an ecological concept can change therapeutic obstacles into therapeutic tools.
Anatomie et biomécanique du thorax antérieur Robert, Yohann; Rabattu, Pierre-Yves; Selek, Laurent ...
Revue du rhumatisme monographies,
April 2015, 2015-04-00, Letnik:
82, Številka:
2
Journal Article
Recenzirano
La paroi thoracique antéro-latérale est une paroi articulée semi-rigide, osseuse, cartilagineuse et musculaire. La mécanique respiratoire dépend de sa constitution intrinsèque. Le vieillissement des ...tissus, voire une pathologie de ses constituants, peut altérer son bon fonctionnement à moindre coût énergétique. Elle est également le lieu d’insertion d’éléments musculaires pour les régions cervicale, scapulaire et abdominale, dont la fonction principale est associée à ces régions anatomiques. Cependant, leur fonction respiratoire accessoire peut s’avérer importante pour compenser une insuffisance des constituants intrinsèques de la paroi thoracique.
The anterior chest wall is articulated and semi-rigid. It is made of bone, cartilage and muscle. Respiratory mechanics depend on its intrinsic constitution. Tissue ageing or disease of its constituents may alter functioning at lower energy cost. The chest wall is also where the muscles from the cervical, scapular and abdominal areas meet. Therefore, its main function is associated to those anatomical regions. However, their accessory respiratory function can be important when compensating insufficiency of the intrinsic constituents of the chest wall.
Abstract Gliomas are extremely aggressive and lethal forms of brain cancer. Unlike many other cancer types, glioma cells rarely metastasize. They spread throughout the brain and invasiveness of ...glioma cells is a major cause of therapeutic failure. In plant ecosystem, biodiversity acts locally as a barrier to ecological invasion. By analogy, we hypothesize that the low cell diversity of differentiated tissues, a counterpart of their functional specificity, opens the way to local cancer cell invasion. Seeding the brain tumor microenvironment with heterogeneous cell populations could be a mean to limit cancer cell invasion by enhancing cell biodiversity.
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