Pleurodesis: A novel experimental model

A New Animal Model for Pathological Subcutaneous Fibrosis: Surgical Technique and in vitro Analysis

Fibrosis is a condition that affects the connective tissue in an organ or tissue in the restorative or responsive phase as a result of injury. The consequences of excessive fibrotic tissue growth may lead to various physiological complications of deformity and impairment due to hypertrophic scars, keloids, and tendon adhesion without understating the psychological impact on the patient. However, no method accurately quantifies the rate and pattern of subcutaneous induced hypertrophic fibrosis. We, therefore, devised a rodent excisional model to evaluate the extent of fibrosis with talc. Tissue specimens were set on formalin, and paraffin sections for histological, immunohistochemical, and molecular analysis talc was used to induce the fibroproliferative mechanism typical of hypertrophic scars. This pathway is relevant to the activation of inflammatory and fibrotic agents to stimulate human hypertrophic scarring. This model reproduces morpho-functional features of human hypertrophic scars to investigate scar formation and assess potential anti-scarring therapies.

Talc Pleurodesis: A Medical, Medicolegal, and Socioeconomic Review

BACKGROUND

Talcum has been used in pleurodesis for more than 8 decades. Despite a wealth of research, controversy remains over the optimal sclerosant for pneumothorax and pleural effusions. Talc's historical primacy has been challenged because of its potential for pulmonary toxicity, possible carcinogenicity, and recent concerns surrounding availability and legal liability, thus making this an ideal time for a review.

METHODS

This systematic review of the talc literature, focused on publications after the year 2000, evaluated mechanism of action, efficacy, side effect profile, and alternative sclerosants; included is an overview of current socioeconomic and legal controversies.

RESULTS

The data support talc as the most effective agent for pleurodesis. There is evidence to suggest that mean particle size has a direct relationship with the side effect profile and that significant hypoxemic events after talc administration are exceedingly rare when using available graded talc preparations. Concerns regarding the development of malignant diseases after topical talc application remain incompletely resolved but appear related to cosmetic powder preparations that were contaminated with asbestos. Purified talc in the pleural space has not been implicated. Recent difficulties accessing commercial talc preparations have been solved. Although safe and effective talc alternatives do exist, these agents are not as well studied.

CONCLUSIONS

Talc pleurodesis with modern, purified, graded talc preparations is safe and highly effective. Talc is an inexpensive and accessible option that remains appropriate for pleurodesis despite existing controversies.

An improved method of delivering a sclerosing agent for the treatment of malignant pleural effusion

Background

Malignant pleural effusion (MPE) is a devastating sequela associated with cancer. Talc pleurodesis is a common treatment strategy for MPE but has been estimated to be unsuccessful in up to 20–50% of patients. Clinical failure of talc pleurodesis is thought to be due to poor dispersion. This monograph reports the development of a foam delivery system designed to more effectively coat the pleural cavity.

Methods

C57BL/6 mice were injected with Lewis lung carcinoma (LL/2) cells intrapleurally to induce MPE. The mice then received either normal saline (NS) control, foam control (F), talc slurry (TS, 2 mg/g) or talc foam (TF, 2 mg/g). Airspace volume was evaluated by CT, lungs/pleura were collected, and percent fibrosis was determined.

Results

The TF group had significantly better survival than the TS group (21 vs 13.5 days, p < 0.0001). The average effusion volume was less in the talc groups compared to the control group (140 vs 628 μL, p < 0.001). TF induced significant lung fibrosis (p < 0.01), similar to TS. On CT, TF significantly (p < 0.05) reduced loss of right lung volume (by 30–40%) compared to the control group. This was not seen with TS (p > 0.05).

Conclusions

This report describes using a novel talc foam delivery system for the treatment of MPE. In the LL/2 model, mice treated with the TF had better survival outcomes and less reduction of lung volume than mice treated with the standard of care TS. These data provide support for translational efforts to move talc foam from animal models into clinical trials.

Pleurodesis induction in rats by Copaiba (Copaifera multijuga Hayne) oil

This study aims to assess and compare copaiba oleoresin of Copaifera multijuga and 0.5% silver nitrate for the induction of pleurodesis in an experimental model. Ninety-six male Wistar rats were divided into three groups: control (0.9% saline solution), copaiba (copaiba oil), and silver nitrate (0.5% silver nitrate). The substances were injected into the right pleural cavity and the alterations were observed macroscopically and microscopically at 24, 48, 72, and 504 h. The value of macroscopic alterations grade and acute inflammatory reaction grade means was higher in the 24 h copaiba group in relation to silver nitrate. Fibrosis and neovascularization means in the visceral pleura were higher in 504 h copaiba group in relation to the silver nitrate group. The grade of the alveolar edema mean was higher in the silver nitrate group in relation to the copaiba group, in which this alteration was not observed. The presence of bronchopneumonia was higher in the 24 h silver nitrate group (n = 4) in relation to the copaiba group (n = 0). In conclusion, both groups promoted pleurodesis, with better results in copaiba group and the silver nitrate group presented greater aggression to the pulmonary parenchyma.

Translational advances in pleural malignancies

Pleural malignancies, including primary malignant pleural mesothelioma and secondary pleural metastasis of various tumours resulting in malignant pleural effusion, are frequent and lethal diseases that deserve devoted translational research efforts for improvements to be introduced to the clinic. This paper highlights select clinical advances that have been accomplished recently and that are based on preclinical research on pleural malignancies. Examples are the establishment of folate antimetabolites in mesothelioma treatment, the use of PET in mesothelioma management and the discovery of mesothelin as a marker of mesothelioma. In addition to established translational advances, this text focuses on recent research findings that are anticipated to impact clinical pleural oncology in the near future. Such progress has been substantial, including the development of a genetic mouse model of mesothelioma and of transplantable models of pleural malignancies in immunocompetent hosts, the deployment of stereological and imaging methods for integral assessment of pleural tumour burden, as well as the discovery of the therapeutic potential of aminobiphosphonates, histone deacetylase inhibitors and ribonucleases against malignant pleural disease. Finally, key obstacles to overcome towards a more rapid advancement of translational research in pleural malignancies are outlined. These include the dissection of cell-autonomous and paracrine pathways of pleural tumour progression, the study of mesothelioma and malignant pleural effusion separately from other tumours at both the clinical and preclinical levels, and the expansion of tissue banks and consortia of clinical research of pleural malignancies.

Autologous blood pleurodesis in rats to elucidate the amounts of blood required for reliable and reproducible results

BACKGROUND

Pleurodesis is used in the treatment of spontaneous pneumothorax or refractory pleural effusions of different etiologies. Several agents have been employed, but many questions remain unanswered about their effectiveness and toxicity. Use of autologous blood pleurodesis in clinical practice has been described in the literature without any clear consensus regarding its efficacy. Experimental studies using this technique are limited to a single study in rabbits. We performed a prospective, randomized, observer-blinded, controlled study to evaluate the safety and efficacy of increasing doses of autologous blood pleurodesis in a novel rat model.

MATERIALS AND METHODS

Twenty-eight albino Wistar rats were divided into four groups. Groups 1, 2, and 3 were the study groups and group 4 was the control group, with seven animals in each group. Groups 1, 2, and 3 were given autologous blood, 1 mL/kg, 2 mL/kg, 3 mL/kg, respectively, and group 4 (control) was given only 2 mL/kg saline intrapleurally. The rats were sacrificed on postoperative day 30. The surfaces were graded by macroscopic (visible adhesion formation) and microscopic (inflammation and fibrosis) examination.

RESULTS

Macroscopically, group 2 and group 3 developed significantly more adhesions; 3 mL/kg autologous blood produced the most significant pleurodesis with generalized adhesions seen between visceral, parietal, and mediastinal pleura. Microscopic examination showed that all study groups developed an inflammatory response at the site of blood injection. There were no pathologic changes in ipsilateral and contralateral lung parenchyma.

CONCLUSIONS

Autologous blood at doses 2-3 mL/kg were shown to be effective to produce adhesions in 30 d, and the results were highly reproducible in all rats. We propose that the occasional negative results obtained in humans may be related to an insufficient amount of injected blood, as observed in our rat model.

Influence of parecoxib (cox-2 inhibitor) in experimental pleurodesis

BACKGROUND

The intrapleural instillation of a sclerosing agent produces an inflammatory process frequently followed by pain. The treatment can include the use of analgesics or anti-inflammatory drugs. Previously, it was demonstrated (experimental studies) that corticoids and nonsteroidal anti-inflammatory drugs (diclofenac) reduce the inflammation and fibrosis produced by talc but not by transforming growth factor-beta or silver nitrate. The objective of this study was to determine whether parecoxib (COX-2 inhibitor) affects pleurodesis induced by talc or silver nitrate.

METHODS

140 rabbits received intrapleural injection (2mL) of 400mg/kg of talc or 0.5% silver nitrate. A subgroup of 70 animals received additional daily intramuscular parecoxib (1mg/kg). They were sacrificed at 4, 24, 48, 72h or 7, 14, or 28 days after the procedure. The pleural fluid was quantified; biochemical examinations (glucose, lactic dehydrogenase, and proteins) and immunologic dosages (interleukin-8, vascular endothelial growth factor, and transforming growth factor-beta(1)) were analyzed in pleural fluid and blood. Finally, macro- and microscopic pleura and lung studies were performed.

RESULTS

Evaluation after 28 days demonstrated that parecoxib reduced pleural and pulmonary inflammation but not pleural adhesions. The changes were observed precociously (congruent with 72h) and were more evident after silver nitrate injection.

CONCLUSION

Systemic parecoxib injection does not interfere with talc or silver nitrate pleurodesis. These results suggest that use of COX-2 inhibitors can be considered and depending of the results of other studies, recommended in human pleurodesis.

Talc pleurodesis: evidence of systemic inflammatory response to small size talc particles

The mechanisms of the systemic response associated with talc-induced pleurodesis are poorly understood. The aim of this study was to assess the acute inflammatory response and migration of talc of small size particles injected in the pleural space. Rabbits were injected intrapleurally with talc solution containing small or mixed particles and blood and pleural fluid samples were collected after 6, 24 or 48 h and assayed for leukocytes, neutrophils, lactate dehydrogenase, IL-8, VEGF, and TGF-beta. The lungs, spleen, liver and kidneys were assessed to study deposit of talc particles. Both types of talc produced an acute serum inflammatory response, more pronounced in the small particles group. Pleural fluid IL-8 and VEGF levels were higher in the small particle talc group. Correlation between pleural VEFG and TGF-beta levels was observed for both groups. Although talc particles were demonstrated in the organs of both groups, they were more pronounced in the small talc group. In conclusion, intrapleural injection of talc of small size particles produced a more pronounced acute systemic response and a greater deposition in organs than talc of mixed particles.

The pathogenesis of pleural space loculation and fibrosis

PURPOSE OF REVIEW

Organization of parapneumonic effusions may complicate pneumonia, and, annually, thousands of patients require procedures to treat intrapleural loculation and fibrosis. Surgical procedures are often used for the treatment, as fibrinolytic therapy is now not a routine and is undergoing reassessment. Investigation of mechanisms that underlie intrapleural loculation and fibrosis is therefore timely, as are studies on new strategies to medically address these problems with improved efficacy and safety.

RECENT FINDINGS

Contributions made over the past year include basic and translational studies unified by their broad focus on mechanisms by which the pleural compartment undergoes repair. Intrapleural single-chain urokinase was reported to effectively reverse intrapleural loculation when compared with commercially available agents in rabbits with tetracycline-induced pleurodesis. The ability of exogenous sclerosants to produce intrapleural loculation and fibrosis was compared. Overexpression of transforming growth factor beta in the pleural mesothelium promoted subpleural fibrosis, implicating the mesothelial cell in the pathogenesis of this lesion. A new model of pleurodesis in mice was reported, which could facilitate the use of transgenic animals to study the pathogenesis of pleural injury.

SUMMARY

New findings consolidate and extend the view that common mechanisms by which intrapleural organization occurs can be exploited to either generate pleurodesis or effectively reverse intrapleural loculation and fibrosis.