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Purpose: The Masquelet technique for the treatment of large bone defects is a two-stage procedure based on an induced membrane. Compared to mature periosteum, the induced membrane differs significantly. However, both play a crucial role in bone regeneration. As part of a histological and radiological post-evaluation of an earlier project, we analyzed the influence of the granule size of the bone void filler Herafill® on development of periosteum regrowth in a critical size defect.
Methods: We compared three different sizes of Herafill® granules (Heraeus Medical GmbH, Wehrheim) in vivo in a rat femoral critical size defect (10 mm) treated with the induced membrane technique. After 8 weeks healing time, femurs were harvested and taken for histological and radiological analysis.
Results: A significantly increased regrowth of periosteum into the defect was found when small granules were used. Large granules showed significantly increased occurrence of bone capping. Small granules lead to significant increase in callus formation in the vicinity to the membrane.
Conclusion: The size of Herafill® granules has significant impact on the development of periosteal-like structures around the defect using Masquelet’s induced membrane technique. Small granules show significantly increased regrowth of periosteum and improved bone formation adjacent to the induced membrane.
Der menschliche Knochen besitzt, als Folge einer Verletzung oder eines chirurgischen Eingriffs, eine große Fähigkeit zur Reparatur und Regeneration. Die Knochenheilung beinhaltet ein komplexes Zusammenspiel von Zellen, Wachstumsfaktoren, Zytokinen sowie der extrazellulären Matrix (Hoerth et al. 2014). Nichtsdestotrotz führt ein Knochenbruch zu einer dramatischen Veränderung der mechanischen Belastbarkeit an der Verletzungsstelle. Der Abstand zwischen den beiden Frakturenden bildet einen entscheidenden Faktor in der Knochenheilung. Hier wird zwischen der primären, der osteonalen Knochenheilung und der sekundären, der kallusformierenden Knochenheilung unterschieden. Umso größer der Frakturspalt ist, desto größer wird die Instabilität, die Heilungsverzögerung und damit auch die Gefahr einer Pseudoarthrose (Hoerth et al., 2014; Marsell et Einhorn, 2011).
Große diaphysale Defekte werden meistens durch Traumata, Infektionen oder Tumore bedingt. Sie werden als critical size defects (CSD) bezeichnet, wenn eine chirurgische Intervention zur Heilung notwendig ist (Rosset et al., 2014). Langstreckige Knochendefekte stellen immer noch eine sehr große Herausforderung in der rekonstruktiven Chirurgie dar. Deswegen ist die Untersuchung und Weiterentwicklung von implantierbaren biomedizinischen Materialien bei der Behandlung von CSD eine wichtige Aufgabe.
Im Augenblick ist die häufigste Behandlungsmethode großer diaphysaler Defekte die Autologe Spongiosaplastik (ASP) und wird als Goldstandart der Therapie bezeichnet. Jedoch stehen die autologen Knochenmaterialien nur begrenzt zur Verfügung und verursachen viele Entnahmemorbiditäten. Darüber hinaus gibt es allogene, xenogene und synthetische Knochentransplantate. Dennoch ist noch keine der Therapiemöglichkeiten so ausgereift, dass die ASP dadurch ersetzt werden könnte. Die allogenen und xenogenen Materialien sind von der Menge unbegrenzt, besitzen aber eine niedrigere Biokompatibilität, höhere Infektionsgefahr und schlechtere Ergebnisse in der Langzeitwirkung (Wang et al., 2014).
Ein weiterer Nachteil gegenüber der ASP besteht darin, dass die synthetischen Knochenersatzmaterialien keine osteoinduktiven und osteogenen Eingenschaften besitzen. Eine Möglichkeit diese Qualitäten zu erhalten ist, sie mit Zellsuspensionen, wie z.B. bone marrow mononuclear cells (BMC), zu kombinieren und somit zu versuchen ein ausgereiftes Therapiekonzept zu entwickeln.
Zugleich beschreibt Masquelet et al. (2000) eine neue Technik, ein zweistufiges Verfahren zur Rekonstruktion von Knochendefekten. Es wird eine biologisch aktive Membran induziert, welche verschiedene Wachstumsfaktoren (wie z.B. VEGF, TGF beta1, BMP-2) sezerniert, die osteoinduktiv wirksam sind. Mit diesem operativen Verfahren wurden bereits gute klinische Ergebnisse bei Knochendefekten nach Tumorresektionen und Traumata erzielt.
Das Ziel dieser Studie ist es einen anorganischen Knochenersatzstoff von Heraeus Herafill unter Verwendung der induzierten Membrantechnik nach Masquelet am Rattenfemur zu testen. Die Forschung erfolgt dabei unter der Hypothese, dass die Korngröße des Knochenersatzmaterials Herafill in Kombination mit BMC-Besiedelung Einfluss auf die Heilung eines kritischen Knochendefekts hat.
Background: Since there is no standardized and effective treatment for advanced uveal melanoma (UM), the prognosis is dismal once metastases develop. Due to the availability of immune checkpoint blockade (ICB) in the real-world setting, the prognosis of metastatic UM has improved. However, it is unclear how the presence of hepatic and extrahepatic metastasis impacts the response and survival after ICB. Methods: A total of 178 patients with metastatic UM treated with ICB were included in this analysis. Patients were recruited from German skin cancer centers and the German national skin cancer registry (ADOReg). To investigate the impact of hepatic metastasis, two cohorts were compared: patients with liver metastasis only (cohort A, n = 55) versus those with both liver and extra-hepatic metastasis (cohort B, n = 123). Data were analyzed in both cohorts for response to treatment, progression-free survival (PFS), and overall survival (OS). The survival and progression probabilities were calculated with the Kaplan–Meier method. Log-rank tests, χ2 tests, and t-tests were performed to detect significant differences between both cohorts. Results: The median OS of the overall population was 16 months (95% CI 13.4–23.7) and the median PFS, 2.8 months (95% CI 2.5–3.0). The median OS was longer in cohort B than in cohort A (18.2 vs. 6.1 months; p = 0.071). The best objective response rate to dual ICB was 13.8% and to anti-PD-1 monotherapy 8.9% in the entire population. Patients with liver metastases only had a lower response to dual ICB, yet without significance (cohort A 8.7% vs. cohort B 16.7%; p = 0.45). Adverse events (AE) occurred in 41.6%. Severe AE were observed in 26.3% and evenly distributed between both cohorts. Conclusion: The survival of this large cohort of patients with advanced UM was more favorable than reported in previous benchmark studies. Patients with both hepatic and extrahepatic metastasis showed more favorable survival and higher response to dual ICB than those with hepatic metastasis only.
EUSOBI and 30 national breast radiology bodies support mammography for population-based screening, demonstrated to reduce breast cancer (BC) mortality and treatment impact. According to the International Agency for Research on Cancer, the reduction in mortality is 40 % for women aged 50–69 years taking up the invitation while the probability of false-positive needle biopsy is <1 % per round and overdiagnosis is only 1–10 % for a 20-year screening. Mortality reduction was also observed for the age groups 40–49 years and 70–74 years, although with “limited evidence”. Thus, we firstly recommend biennial screening mammography for average-risk women aged 50–69 years; extension up to 73 or 75 years, biennially, is a second priority, from 40–45 to 49 years, annually, a third priority. Screening with thermography or other optical tools as alternatives to mammography is discouraged. Preference should be given to population screening programmes on a territorial basis, with double reading. Adoption of digital mammography (not film-screen or phosphor-plate computer radiography) is a priority, which also improves sensitivity in dense breasts. Radiologists qualified as screening readers should be involved in programmes. Digital breast tomosynthesis is also set to become “routine mammography” in the screening setting in the next future. Dedicated pathways for high-risk women offering breast MRI according to national or international guidelines and recommendations are encouraged.
The Masquelet technique for the treatment of large bone defects is a two‐stage procedure based on an induced membrane. The size of a scaffold is reported to be a critical factor for bone healing response. We therefore aimed to investigate the influence of the granule size of a bone graft substitute on bone marrow derived mononuclear cells (BMC) supported bone healing in combination with the induced membrane. We compared three different sizes of Herafill® granules (Heraeus Medical GmbH, Wehrheim) with or without BMC in vivo in a rat femoral critical size defect. A 10 mm defect was made in 126 rats and a membrane induced by a PMMA‐spacer. After 3 weeks, the spacer was taken out and membrane filled with different granule sizes. After 8 weeks femurs were taken for radiological, biomechanical, histological, and immunohistochemical analysis. Further, whole blood of the rat was incubated with granules and expression of 29 peptide mediators was assessed. Smallest granules showed significantly improved bone healing compared to larger granules, which however did not lead to an increased biomechanical stability in the defect zone. Small granules lead to an increased accumulation of macrophages in situ which could be assigned to the inflammatory subtype M1 by majority. Increased release of chemotactic respectively proangiogenic active factors in vitro compared to syngenic bone and beta‐TCP was observed. Granule size of the bone graft substitute Herafill® has significant impact on bone healing of a critical size defect in combination with Masquelet's technique in terms of bone formation and inflammatory.