Lehrstuhl für Orthopädie
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- Lehrstuhl für Orthopädie (374) (remove)
Sonstige beteiligte Institutionen
- IZKF Nachwuchsgruppe Geweberegeneration für muskuloskelettale Erkrankungen (7)
- Bernhard-Heine-Centrum für Bewegungsforschung (4)
- König-Ludwig-Haus Würzburg (3)
- Orthopädische Klinik und Poliklinik der Universität Würzburg (2)
- König Ludwig Haus Würzburg (1)
- König-Ludwig Haus (1)
- Lehrstuhl für Regeneration Muskuloskelettaler Gewebe (1)
- Muskuloskelettalen Zentrum Würzburg (MCW) (1)
- Muskuloskelettales Centrum Würzburg (MCW) (1)
- Orthopädische Klinik König-Ludwig-Haus (1)
Handgelenkserkrankungen haben sowohl in Amerika wie auch in Europa mit steigenden Fallzahlen einen durch den Ausfall der Arbeitskraft nicht unerheblichen Einfluß auf die Volkswirtschaft. Ständige Wiederholungen in hoher Frequenz werden für die RSI ursächlich verantwortlich gemacht. Basierend auf der Annahme, dass Vibrationen und Beschleunigungskräften mittels Dämpfkörpern beeinflusst werden können, wurde die Coopercare Lastrap-Bandage entwickelt. Obwohl die Behandlung mit Handgelenksorthesen eine allgemein gängige Form der Behandlung von verschiedenen Handgelenkserkrankungen darstellt, gibt es hierzu nur sehr wenige klinische Daten über den Stellenwert dieser Verfahren. Daher wurde in einer prospektiven randomisierten Längsschnitt-Studie der Stellenwert einer Bandagenbehandlung mit biomechanisch begründetem Ansatz im Vergleich zur konventionellen Bandagentherapie an 34 Patienten mit unterschiedlichen Erkrankungen des Handgelenks getestet. Unserer Studie zufolge sind entsprechend dem biomechanischen Ansatz die unter 40-jährigen männlichen Patienten mit seit kurzem bestehender Tendovaginitis die Zielgruppe, die am Besten von einer Bandagentherapie mit der Lastrap®-Bandage profitieren. Bei unter 40-jährigen männlichen Patienten mit Distorsion des Handgelenks ist die Manu-Hit®-Bandage zu bevorzugen. Durch die deutliche Schmerzreduktion können hier Handgelenksorthesen unter anderem den Gebrauch von NSAR verringern und damit die Arzneimittelausgaben senken.
In bone tissue engineering, the design of 3D systems capable of recreating composition, architecture and micromechanical environment of the native extracellular matrix (ECM) is still a challenge. While perfusion bioreactors have been proposed as potential tool to apply biomechanical stimuli, its use has been limited to a low number of biomaterials. In this work, we propose the culture of human mesenchymal stem cells (hMSC) in biomimetic mineralized recombinant collagen scaffolds with a perfusion bioreactor to simultaneously provide biochemical and biophysical cues guiding stem cell fate. The scaffolds were fabricated by mineralization of recombinant collagen in the presence of magnesium (RCP.MgAp). The organic matrix was homogeneously mineralized with apatite nanocrystals, similar in composition to those found in bone. X-Ray microtomography images revealed isotropic porous structure with optimum porosity for cell ingrowth. In fact, an optimal cell repopulation through the entire scaffolds was obtained after 1 day of dynamic seeding in the bioreactor. Remarkably, RCP.MgAp scaffolds exhibited higher cell viability and a clear trend of up-regulation of osteogenic genes than control (non-mineralized) scaffolds. Results demonstrate the potential of the combination of biomimetic mineralization of recombinant collagen in presence of magnesium and dynamic culture of hMSC as a promising strategy to closely mimic bone ECM.
Bisphenol A-related effects on bone morphology and biomechanical properties in an animal model
(2022)
Bisphenol A (BPA), which is contained in numerous plastic products, is known to act as an endocrine-disruptive, toxic, and carcinogenic chemical. This experimental series sought to determine the influence of BPA exposure on the femoral bone architecture and biomechanical properties of male and female Wistar rats. BPA was applied subcutaneously by using osmotic pumps. After 12 weeks, the bones were analyzed by micro-computed tomography (micro-CT) and a three-point bending test. Comparing the female low- and high-dose groups, a significantly greater marrow area (p = 0.047) was identified in the group exposed to a higher BPA concentration. In addition, the trabecular number tended to be higher in the female high-dose group when compared to the low-dose group (p > 0.05). The area moment of inertia also tended to be higher in the male high-dose group when compared to the male low-dose group (p > 0.05). Considering our results, BPA-related effects on the bone morphology in female Wistar rats are osteoanabolic after high-dose exposure, while, in male rats, a tendency toward negative effects on the bone morphology in terms of a reduced cross-sectional cortical area and total area could be demonstrated.
Active vitamin D (1,25(OH)2D3) is known to exert direct anti-cancer actions on various malignant tissues through binding to the vitamin D receptor (VDR). These effects have been demonstrated in breast, prostate, renal and thyroid cancers, which all have a high propensity to metastasise to bone. In addition, there is evidence that vitamin D catabolism via 24-hydroxylase (CYP24A1) is altered in tumour cells, thus, reducing local active vitamin D levels in cancer cells. The aim of this study was to assess VDR and CYP24A1 expression in various types of bone metastases by using immunohistochemistry. Overall, a high total VDR protein expression was detected in 59% of cases (39/66). There was a non-significant trend of high-grade tumours towards the low nuclear VDR expression (p = 0.07). Notably, patients with further distant metastases had a reduced nuclear VDR expression (p = 0.03). Furthermore, a high CYP24A1 expression was detected in 59% (39/66) of bone metastases. There was a significant positive correlation between nuclear VDR and CYP24A1 expression (p = 0.001). Collectively, the VDR and CYP24A1 were widely expressed in a multitude of bone metastases, pointing to a potential role of vitamin D signalling in cancer progression. This is of high clinical relevance, as vitamin D deficiency is frequent in patients with bone metastases.
Summary
In adult hypophosphatasia (HPP) patients, elevated lumbar spine dual X-ray absorptiometry (DXA) values are associated with markers of disease severity and disease-specific fracture risk while femoral bone mineral density (BMD), being largely unaffected by the disease severity, may still be useful to monitor other causes of increased fracture risk due to low BMD.
Introduction
Hypophosphatasia (HPP) is a rare inherited metabolic disorder due to deficient activity of the tissue-nonspecific alkaline phosphatase (TNAP). Clinical manifestation in adult HPP patients is manifold including an increased risk for fractures, but data regarding clinical significance of DXA measurement and associations with fracture risk and disease severity is scarce.
Methods
Retrospective single-center analysis of DXA scans in patients with confirmed HPP (documented mutation, clinical symptoms, low alkaline phosphatase activity). Further data evaluation included disease-related fractures, laboratory results (alkaline phosphatase, pyridoxalphosphate, phosphoethanolamine), and medical history.
Results
Analysis included 110 patients (84 female, mean age of 46.2 years) of whom 37.3% (n = 41) were harboring two mutations. Average T-Score level at the lumbar spine was − 0.1 (SD 1.9), and mean total hip T-Score was − 1.07 (SD 0.15). Both lower ALP activity and higher substrate levels (pyridoxalphosphate and phosphoethanolamine) were significantly correlated with increased lumbar spine T-Score levels (p < 0.001) while BMD at the hip was not affected by indicators of disease severity. Increased lumbar spine BMD was significantly associated with an increased risk for HPP-related fractures, prevalent in 22 (20%) patients (p < 0.001) with 21 of them having biallelic mutations.
Conclusion
BMD in adult HPP patients is not systematically reduced. Conversely, increased lumbar spine BMD appears to be associated with severely compromised mineralization and increased risk for HPP-related fractures while BMD at the hip appears unaffected by indicators of disease severity, suggesting suitability of this anatomic location for assessing and discerning disorders with increased fracture risk owing to reduced BMD like osteoporosis.
Trial registration number
German register for clinical studies (DRKS00014022)
Date of registration
02/10/2018 – retrospectively registered
Summary
There is limited understanding of how asfotase alfa affects mineral metabolism and bone turnover in adults with pediatric-onset hypophosphatasia. This study showed that adults with hypophosphatasia treated with asfotase alfa experienced significant changes in biochemical markers of bone and mineral metabolism, possibly reflecting enhanced bone remodeling of previously osteomalacic bone.
Introduction
Hypophosphatasia (HPP), due to a tissue nonspecific alkaline phosphatase (TNSALP) deficiency, can cause impaired bone mineralization and turnover. Although HPP may be treated with asfotase alfa, an enzyme replacement therapy, limited data are available on how treatment with asfotase alfa affects mineral metabolism and bone turnover in adults with HPP.
Methods
ALP substrates, bone turnover and mineral metabolism markers, and bone mineral density (BMD) data from EmPATHY, a single-center, observational study of adults (≥ 18 years) with pediatric-onset HPP treated with asfotase alfa (NCT03418389), were collected during routine clinical care and analyzed from baseline through 24 months of treatment.
Results
Data from 21 patients showed significantly increased ALP activity and reduced urine phosphoethanolamine (PEA)/creatinine (Cr) ratios after baseline through 24 months of asfotase alfa treatment. There were significant transient increases in parathyroid hormone 1-84 (PTH), osteocalcin, and procollagen type 1 N-propeptide (P1NP) levels at 3 and 6 months and in tartrate-resistant acid phosphatase 5b (TRAP5b) levels at 3 months, with a significant decrease in N-terminal telopeptide of type 1 collagen (NTX) levels at 24 months. Lumbar spine BMD T scores continuously increased during treatment.
Conclusion
Significant changes in bone turnover and mineral metabolism markers after asfotase alfa treatment suggest that treatment-mediated mineralization may enable remodeling and bone turnover on previously unmineralized surfaces. Urine PEA/Cr ratios may be a useful parameter in monitoring treatment during routine care.
Hypophosphatasia (HPP) is a rare, inherited, metabolic disease caused by deficient tissue non‐specific alkaline phosphatase activity. This study aims to assess patient‐reported pain, disability and health‐related quality of life (HRQoL) in a real‐world cohort of adults with HPP who were not receiving asfotase alfa during the analysis. Adults (≥18 years old) with HPP (confirmed by ALPL gene mutation and/or low serum alkaline phosphatase activity for age/sex) were identified from the Global HPP Registry (NCT02306720). Demographics, clinical characteristics, and data on patient‐reported pain, disability, and HRQoL (assessed by Brief Pain Inventory Short Form [BPI‐SF], Health Assessment Questionnaire Disability Index [HAQ‐DI], and 36‐Item Short‐Form Health Survey version 2 [SF‐36v2], respectively) were stratified by pediatric‐ and adult‐onset HPP and summarized descriptively. Of the 304 adults included (median [min, max] age 48.6 [18.8, 79.8] years; 74% women), 45% had adult‐onset HPP and 33% had pediatric‐onset HPP (unknown age of onset, 22%). Of those with data, 38% had experienced ≥5 HPP manifestations and 62% had a history of ≥1 fracture/pseudofracture. Median (Q1, Q3) BPI‐SF scores were 3.5 (1.5, 5.3) for pain severity and 3.3 (0.9, 6.2) for pain interference. Median (Q1, Q3) disability on the HAQ‐DI was 0.3 (0.0, 0.7). Median (Q1, Q3) physical and mental component summary scores on the SF‐36v2 were 42.4 (32.7, 49.9) and 45.3 (36.3, 54.8), respectively. Greater numbers of HPP manifestations experienced/body systems affected correlated significantly with poorer scores on the BPI‐SF, HAQ‐DI, and SF‐36v2 (all p < 0.05). No significant differences between adults with pediatric‐ and adult‐onset HPP were observed for patient‐reported outcomes, except for disability and the BPI‐SF question “pain at its worst,” which were significantly higher among adults with pediatric‐ versus adult‐onset HPP (p = 0.03 and 0.04, respectively). These data from the Global HPP Registry show that adults with HPP have a substantial burden of illness that is associated with reduced patient‐reported HRQoL, regardless of age of disease onset.
Juvenile Dermatomyositis (JDM) is a rare autoimmune disease in children and adolescents. In these patients calcinosis might be the most characteristic symptom. However there are only few reported cases of intramuscular calcinosis in Dermatomyositis. We report a case of calcinosis universalis (CU) of the elbow in JDM successfully treated with broaching. The patient, a 24-year-old woman, suffered from a long history of JDM. On examination she presented with a fistula lateral to the olecranon and pain of the right elbow joint. Plain X-rays displayed a diffuse pattern of multiple periarticular, subcutaneous, and intramuscular calcifications. The patient underwent surgery for histological and microbiological sampling as well as broaching. Intraoperatively sinus formation and subfascial hard calcium deposition were found. Due to the risk of collateral tissue damage, incomplete broaching was performed. A local infection with Staphylococcus was diagnosed and treated with antibiotics. On six-week and 30-month follow-up the patient was free of pain and had very good function. Calcifications on standard radiographs had almost resolved entirely. This case report gives a summary on calcinosis in Dermatomyositis and adds a new case of recalcitrant CU to the literature. Broaching surgery proved to be a reliable treatment option in symptomatic calcinosis.
Resection of musculoskeletal sarcoma can result in large bone defects where regeneration is needed in a quantity far beyond the normal potential of self-healing. In many cases, these defects exhibit a limited intrinsic regenerative potential due to an adjuvant therapeutic regimen, seroma, or infection. Therefore, reconstruction of these defects is still one of the most demanding procedures in orthopaedic surgery. The constraints of common treatment strategies have triggered a need for new therapeutic concepts to design and engineer unparalleled structural and functioning bone grafts. To satisfy the need for long-term repair and good clinical outcome, a paradigm shift is needed from methods to replace tissues with inert medical devices to more biological approaches that focus on the repair and reconstruction of tissue structure and function. It is within this context that the field of bone tissue engineering can offer solutions to be implemented into surgical therapy concepts after resection of bone and soft tissue sarcoma. In this paper we will discuss the implementation of tissue engineering concepts into the clinical field of orthopaedic oncology.
Purpose
The AMADEUS (Area Measurement And DEpth and Underlying Structures) scoring and grading system has been proposed for the MRI based evaluation of untreated focal chondral defects around the knee. The clinical practicability, its correlation with arthroscopically assessed grading systems (ICRS – International Cartilage Repair Society) and thereby its clinical value in terms of decision making and guiding prognosis was yet to determine.
Methods
From 2008 to 2019 a total of 89 individuals were indicated for high tibial valgus osteotomy (HTO) due to tibial varus deformity and concomitant chondral defects of the medial compartment of the knee. All patients received a preoperative MRI (1.5 Tesla or 3.0 Tesla) and pre-osteotomy diagnostic arthroscopy. Chondral defects of the medial compartment were scored and graded with the MRI based AMADEUS by three independent raters and compared to arthroscopic defect grading by the ICRS system. Interrater and intrarater reliability as well as correlation analysis with the ICRS classification system were assessed.
Results
Intraclass correlation coefficients for the various subscores of the AMADEUS showed an overall good to excellent interrater agreement (min: 0.26, max: 0.80). Intrarater agreement turned out to be substantially inferior (min: 0.08, max: 0.53). Spearman correlation revealed an overall moderate correlative association of the AMADEUS subscores with the ICRS classification system, apart from the defect area subscore. Sensitivity of the AMADEUS to accurately identify defect severity according to the ICRS was 0.7 (0.69 for 3.0 Tesla MRI, 0.67 for 1.5 Tesla MRI). The mean AMADEUS grade was 2.60 ± 0.81 and the mean ICRS score 2.90 ± 0.63.
Conclusions
Overall, the AMADEUS with all its subscores shows moderate correlation with the arthroscopic chondral grading system according to ICRS. This suggests that chondral defect grading by means of the MRI based AMADEUS is well capable of influencing and guiding treatment decisions. Interrater reliability shows overall good agreement.
Calcification of the medial collateral ligament (MCL) of the knee is a very rare disease. We report on a case of a patient with a calcifying lesion within the MCL and simultaneous calcifying tendinitis of the rotator cuff in both shoulders. Case presentation: Calcification of the MCL was diagnosed both via x-ray and magnetic resonance imaging (MRI) and was successfully treated surgically. Calcifying tendinitis of the rotator cuff was successfully treated applying conservative methods. Conclusion: This is the first case report of a patient suffering from both a calcifying lesion within the medial collateral ligament and calcifying tendinitis of the rotator cuff in both shoulders. Clinical symptoms, radio-morphological characteristics and macroscopic features were very similar and therefore it can be postulated that the underlying pathophysiology is the same in both diseases. Our experience suggests that magnetic resonance imaging and x-ray are invaluable tools for the diagnosis of this inflammatory calcifying disease of the ligament, and that surgical repair provides a good outcome if conservative treatment fails. It seems that calcification of the MCL is more likely to require surgery than calcifying tendinitis of the rotator cuff. However, the exact reason for this remains unclear to date.
Background:
The standardized maritime pine bark extract (Pycnogenol\(^{®}\)) has previously shown symptom alleviating effects in patients suffering from moderate forms of knee osteoarthritis (OA). The cellular mechanisms for this positive impact are so far unknown. The purpose of the present randomized pilot controlled study was to span the knowledge gap between the reported clinical effects of Pycnogenol\(^{®}\) and its in vivo mechanism of action in OA patients.
Methods:
Thirty three patients with severe OA scheduled for a knee arthroplasty either received 100 mg of Pycnogenol\(^{®}\) twice daily or no treatment (control group) three weeks before surgery. Cartilage, synovial fluid and serum samples were collected during surgical intervention. Relative gene expression of cartilage homeostasis markers were analyzed in the patients' chondrocytes. Inflammatory and cartilage metabolism mediators were investigated in serum and synovial fluid samples.
Results:
The oral intake of Pycnogenol\(^{®}\) downregulated the gene expression of various cartilage degradation markers in the patients' chondrocytes, the decrease of MMP3, MMP13 and the pro-inflammatory cytokine IL1B were statistically significant (p ≤ 0.05). Additionally, protein concentrations of ADAMTS-5 in serum were reduced significantly (p ≤ 0.05) after three weeks intake of the pine bark extract.
Conclusions:
This is the first report about positive cellular effects of a dietary supplement on key catabolic and inflammatory markers in patients with severe OA. The results provide a rational basis for understanding previously reported clinical effects of Pycnogenol\(^{®}\) on symptom scores of patients suffering from OA.
Background
The role of cement-augmented screw fixation for calcaneal fracture treatment remains unclear. Therefore, this study was performed to biomechanically analyze screw osteosynthesis by reinforcement with either a calcium phosphate (CP)-based or polymethylmethacrylate (PMMA)-based injectable bone cement.
Methods
A calcaneal fracture (Sanders type IIA) including a central cancellous bone defect was generated in 27 synthetic bones, and the specimens were assigned to 3 groups. The first group was fixed with four screws (3.5 mm and 6.5 mm), the second group with screws and CP-based cement (Graftys (R) QuickSet; Graftys, Aix-en-Provence, France), and the third group with screws and PMMA-based cement (Traumacem (TM) V+; DePuy Synthes, Warsaw, IN, USA). Biomechanical testing was conducted to analyze peak-to-peak displacement, total displacement, and stiffness in following a standardized protocol.
Results
The peak-to-peak displacement under a 200-N load was not significantly different among the groups; however, peak-to-peak displacement under a 600- and 1000-N load as well as total displacement exhibited better stability in PMMA-augmented screw osteosynthesis compared to screw fixation without augmentation. The stiffness of the construct was increased by both CP- and PMMA-based cements.
Conclusion
Addition of an injectable bone cement to screw osteosynthesis is able to increase fixation strength in a biomechanical calcaneal fracture model with synthetic bones. In such cases, PMMA-based cements are more effective than CP-based cements because of their inherently higher compressive strength. However, whether this high strength is required in the clinical setting for early weight-bearing remains controversial, and the non-degradable properties of PMMA might cause difficulties during subsequent interventions in younger patients.
Introduction
The bursa subacromialis (BS) provides the gliding mechanism of the shoulder and regenerates itself after surgical removal. Therefore, we explored the presence of mesenchymal stem cells (MSCs) within the human adult BS tissue and characterized the BS cells compared to MSCs from bone marrow (BMSCs) on a molecular level.
Methods
BS cells were isolated by collagenase digest from BS tissues derived from patients with degenerative rotator cuff tears, and BMSCs were recovered by adherent culture from bone-marrow of patients with osteoarthritis of the hip. BS cells and BMSCs were compared upon their potential to proliferate and differentiate along chondrogenic, osteogenic and adipogenic lineages under specific culture conditions. Expression profiles of markers associated with mesenchymal phenotypes were comparatively evaluated by flow cytometry, immunohistochemistry, and whole genome array analyses.
Results
BS cells and BMSCs appeared mainly fibroblastic and revealed almost similar surface antigen expression profiles, which was \(CD44^+, CD73^+, CD90^+, CD105^+, CD106^+\),\(STRO-1^+, CD14^−, CD31^−, CD34^− ,
CD45^−, CD144^−\). Array analyses revealed 1969 genes upregulated and 1184 genes downregulated in BS cells vs. BMSCs, indicating a high level of transcriptome similarity. After 3 weeks of differentiation culture, BS cells and BMSCs showed a similar strong chondrogenic, adipogenic and osteogenic potential, as shown by histological, immunohistochemical and RT-PCR analyses in contrast to the respective negative controls.
Conclusions
Our in vitro characterizations show that BS cells fulfill all characteristics of mesenchymal stem cells, and therefore merit further attention for the development of improved therapies for various shoulder pathologies.
This work developed during the first funding period of the subproject B05 in the framework of the interdisciplinary research consortium TRR 225 ‘From the Fundamentals of Biofabrication toward functional Tissue Models’ and was part of a cooperation between the Orthopedic Department represented by Prof. Dr. Regina Ebert and the Institute of Organic Chemistry represented by Prof. Dr. Jürgen Seibel.
This project dealed with cellular behavior during the bioprinting process and how to influence it by modifying the cell glycocalyx with functional target molecules. The focus was on the impact of potential shear stress, that cells experience when they get processed in thermoresponsive bioinks, and a way to increase the cell stiffness via metabolic glycoengineering to attenuate shear forces. For the characterization of the metabolic glycoengineering, four different peracetylated and four non-acetylated modified monosaccharides (two mannose and two sialic acid sugars) were tested in primary human mesenchymal stromal cells (hMSC) and telomerase-immortalized hMSC (hMSC-TERT). Viability results demonstrated a dose-dependent correlation for all sugars, at which hMSC-TERT seemed to be more susceptible leading to lower viability rates. The assessment of the incorporation efficiencies was performed by click chemistry using fluorescent dyes and revealed also a dose-dependent correlation for all mannose and sialic acid sugars, while glucose and galactose variants were not detected in the glycocalyx. However, incorporation efficiencies were highest when using mannose sugars in the primary hMSC. A subsequent analysis of the temporal retention of the incorporated monosaccharides showed a constant declining fluorescence signal up to 6 d for azido mannose in hMSC-TERT, whereas no signal could be detected for alkyne mannose after 2 d. Investigation of the differentiation potential and expression of different target genes revealed no impairment after incubation with mannose sugars, indicating a normal phenotype for hMSC-TERT. Following the successful establishment of the method, either a coumarin derivative or an artificial galectin 1 ligand were incorporated into the cell glycocalyx of hMSC-TERT as functional target molecule. The biophysical analysis via shear flow deformation cytometry revealed a slightly increased cell stiffness and lowered fluidity for both molecules. A further part of this project aimed to control lectin-mediated cell adhesion by artificial galectin 1 ligands. As that hypothesis was settled in the work group of Prof. Dr. Jürgen Seibel, this work supported with an initial characterization of galectin 1 as part of the hMSC biology. A stable galectin 1 expression at gene and protein level in both hMSC and hMSC-TERT could be confirmed, at which immunocytochemical stainings could detect the protein only in the glycocalyx. The treatment of hMSC-TERT with a galectin 1 ligand in different concentrations did not show an altered gene expression of galectin 1. However, these first data in addition to the investigation of stiffness confirmed the applicability of specific and artificial
IV
galectin 1 ligands in biofabrication approaches to alter cell properties of hMSC. To conclude, metabolic glycoengineering has been successfully implemented in hMSC and hMSC-TERT to introduce glycocalyx modifications which reside there for several days. A proof of concept was carried out by the increase of cell stiffness and fluidity by the incorporation of a coumarin derivative or an artificial galectin 1 ligand.
For the characterization of shear stress impact on cells after printing in thermoresponsive bioinks, the processing of hMSC-TERT (mixing or additionally printing) with Pluronic F127 or Polyoxazoline-Polyoxazine (POx-POzi) polymer solution was investigated. While there were no changes in viability when using POx-POzi bioink, processing with Pluronic F127 indicated slightly lower viability and increased apoptosis activity. Assessment of cellular responses to potential shear stress showed no reorganization of the cytoskeleton independent of the bioink, but highly increased expression of the mechanoresponsive proto-oncogene c Fos which was more pronounced when using Pluronic F127 and just mixed with the bioinks. Interestingly, processing of the mechanoresponsive reporter cell line hMSC-TERT-AP1 revealed slightly elevated mechanotransduction activity when using POx-POzi polymer and just mixed with the bioinks as well. In conclusion, hMSC-TERT embedded in thermoresponsive bioinks might shortly experience shear stress during the printing process, but that did not lead to remarkable cell damage likely due to the rheological properties of the bioinks. Furthermore, the printing experiments also suggested that cells do not sense more shear stress when additionally printed.
Angiopoetin-like 4 (ANGPTL-4) ist ein Adipokin, das in der extrazellulären Matrix lokalisiert ist und das neben seinen Aufgaben im Fettstoffwechsel auch die Zellmigration, Zellinvasion und die Angioneogenese reguliert. Da es zusätzlich auch den Knochenabbau fördert, wirkt es als Tumorpromotor speziell für Knochentumore. Aufgrund der gesteigerten Expression in Tumorgewebe ist es potenzielles Ziel für molekulare Bildgebung. Mittels Expressionsanalysen auf mRNA- und Proteinebene sollte ein besseres Verständnis der Regulation von ANGPTL-4 erreicht werden. Dexamethason und die 9-cis-Retinsäure beeinflussten die Expression von ANGPTL-4 in MDA Zellen im positiven Sinne, wohingegen der Adenylatcyclase Aktivator Forskolin die Expression supprimierte. In MCF-7 Zellen wurde ANGPTL-4 durch den Phorbolester PMA und durch den Epidermalen Wachstumsfaktor (EGF) induziert. Eine Modulation von ANGPTL-4 könnte von klinischem Nutzen sein, speziell bei der Behandlung von Knochentumoren. Zusätzlich könnte die Trennschärfe von molekularen bildgebenden Verfahren gesteigert werden.
Die Coxarthrose ist eine häufige degenerative Erkrankung, deren Prävalenz mit steigendem Lebensalter zunimmt. Durch die steigende Lebenserwartung der Bevölkerung nimmt dementsprechend auch die Anzahl an Patienten mit Coxarthrose zu. Die Therapie besteht konservativ u.a. aus Physiotherapie und Analgesie. Reichen die konservativen Maßnahmen nicht aus, steht der totale Gelenkersatz in Form eine Totalendoprothese zur Verfügung. Bisher gibt es keine regenerativen Therapien, die den arthrotisch degenerierten Gelenkknorpel ersetzen können. Durch die Fähigkeit, sich in Knochen-, Fett- und Knorpelzellen zu differenzieren, ist in der Vergangenheit die mesenchymale Stammzelle in den Fokus der Forschung gerückt. Es wird vermutet, dass diese Stammzellpopulation das Potential besitzen könnte, den defekten Knorpel zu ersetzen. Diese Zellpopulation ist in vivo jedoch noch nicht ausreichend charakterisiert und es fehlen belastbare Daten, wie sich die (pathologische) Umgebung auf die MSC auswirkt. In den letzten Jahren sind diverse Populationen von MSC mit unterschiedlichen Eigenschaften entdeckt worden. Um die subchondralen Populationen aus arthrotischen Hüften genauer zu charakterisieren, wurde hier Reaming aus dem Acetabulum (ein bei der Hüft-TEP Implantation anfallendes chirurgisches Abfallprodukt) untersucht. Die enthaltenen Zellen wurden im Hinblick auf die zelluläre Signatur und donorenbezogenen Eigenschaften untersucht. Parameter, die untersucht wurden, waren das Alter, das Geschlecht, der BMI und der K&L Score. Außerdem wurde die zelluläre Signatur anhand bestimmter Oberflächenmarker untersucht. Weiterhin wurden die isolierten und kultivierten MSC untersucht, ob sie sich bzgl. ihrer Fähigkeit unterscheiden, sich in die adipogene bzw. osteogene Linie zu differenzieren. Eine Eigenschaft, die bisher bei allen Populationen von möglichen MNC bzw. MSC nachgewiesen wurde, ist ihre Fähigkeit Kolonien zu bilden - sog. CFU-F. Bei den durchgeführten Untersuchungen zeigte sich, dass aus allen erhaltenen Proben MSC in Form von CFU-F gewonnen werden konnten. Weiterhin waren alle Zellen in der Lage adipogen bzw. osteogen zu differenzieren. Signifikante Unterschiede in Bezug auf die Differenzierungseigenschaften konnten nicht festgestellt werden. Eine höhere CFU-F Bildung konnte aus dem Reaming von männlichen Donoren nachgewiesen werden. Weiterhin konnte gezeigt werden, dass sich eine signifikant höhere Anzahl CD271-exprimierender Zellen im Reaming von männlichen Donoren befand. Ebenfalls konnte eine signifikante Zunahme für CD45- CD13+ CD105+ Zellen mit steigendem BMI nachgewiesen werden.
Durch diese umfassende Versuchsreihe konnte dargelegt werden, dass es in arthrotischen Hüften Unterschiede in der MSC Zahl im Vergleich der Geschlechter gibt und dass bestimmte Populationen von MSC mit steigendem BMI zunehmen. Um diese Ergebnisse einordnen zu können ist es in Zukunft notwendig zu untersuchen, ob diese Unterschiede allein durch die Arthrose bedingt sind oder ob dieser Unterschied auch im gesunden Knochenmark vorliegt.
Osteoporose wird definiert als erworbene, generalisierte Skeletterkrankung, die durch eine verminderte Knochenfestigkeit und einen pathologischen Knochenverlust charakterisiert wird. Durch die Störung der Mikroarchitektur kommt es zu strukturellen und funktionellen Defiziten im Sinne von Fragilitätsfrakturen. Mechanische Stimulation erhält die Gewebemasse und stimuliert deren kontinuierliche Anpassung. Östrogene spielen bei der Entwicklung, dem Wachstum und der Regeneration des Knochens eine bedeutende Rolle und wirken über Bindung an die Östrogenrezeptoren ER und ER in bestimmten Zielgeweben. Östrogenrezeptoren sind unverändert sehr geeignete Targets für die Entwicklung von Medikamenten im Rahmen der Osteoporosetherapie wie z.B. die selektiven Östrogen-Rezeptor-Modulatoren (SERMs). Die molekulare Klärung der Einflüsse von ER und ER ist unverändert von großer klinischer Bedeutung. Die Herstellung stabiler Zelllinien mit Überexpression von Reportergenkonstrukten und Rezeptoren kann dabei hilfreich sein. In dieser Arbeit wurde eine stabile Zelllinie mit Überexpression von ERβ etabliert, die unterschiedliche Wirkung von ER und ER wurden analysiert und die Effekte von zyklischer Dehnung auf Reportergenexpression unter der Kontrolle von mechanosensitiven responsiven Elementen wurden charakterisiert.
Das kolorektale Karzinom ist in der westlichen Welt die zweithäufigste Todesursache bei Männer und Frauen. Wichtige Pathomechanismen der kolorektalen Karzinome konnten in den letzten Jahren aufgedeckt werden. Die Anhäufung von genetischen Alterationen spielen sowohl bei sporadischen, als auch bei den hereditären Formen eine wichtige Rolle. Zwei molekulargenetische Hauptwege sind bei der kolorektalen Karzinogenese identifiziert worden: erstens der Tumorsuppressor-Pathway, bei dem es zu Alterationen in Tumorsuppresor- und Onkogenen kommt und zweitens der Mutatior-Pathway, der auf genetischen Alterationen in DNA-mismatch-Reparatur-Genen beruht, die zu einer genetischen Instabilität führen mit einer hohen Mutationsrate in repetitiven DNA-Sequenzen (sog. Mikrosatelliten). Es konnte gezeigt werden, dass oxidativer Stress, der durch die Bildung von H2O2 und anderen reaktiven Sauerstoffspezies (ROS) hervorgerufen wird, zur Entstehung von zellulären und DNA-Schäden wie z.B. oxidative Basenschäden, die ihrerseits u.a. die Entstehung von fixen Punktmutationen, Fragmentation der Desoxiribose und DNA-Strangbrüche initiieren, führen kann. Diese Veränderungen und auch die Mismatch-Reparatur-Defizienz begünstigen die Tumorprogression im Kolon. Es wird geschätzt, dass durch ROS täglich ca.20 000 hits pro Zelle verursacht werden. Es existieren sowohl extrazelluläre, als auch zelluläre antioxidative Abwhrsysteme, die Biomoleküle wie u.a. die DNA vor dem oxidativen Stress schützen. Unter diesen protektiven Enzymen gibt es neben der Superoxidismutase und der Katalase auch zahlreiche Selenoproteine, die Selenocystein in ihrem aktiven Zentrum tragen. Zu diesen Enzymen, die antioxidative Funktionen wahrnehmen gehören u.a. die Glutathionperoxidase, die Thioredoxinreduktase und das Selenoprotein P. Die Glutathionperoxidase-Familie besteht aus der cytosolischen Glutathioperoxidase (cGPx), der plasmatischen Glutathionperoxidase (pGPx), der gastrointestinalen Glutathionperoxidase (GI-GPx) und der Phospholipid-Hydroperoxid-Glutathionperoxidase (PH-GPx). Diese Enzymfamilie ist an der Reduktion von Hydroperoxiden beteiligt, wobei sie Glutathion als Cofaktor benutzt. Die Thioredoxinreduktase-Familie (TrxR-alpha und Trxr-beta) regeneriert oxidiertes Thioresoxin, das in die DNA-Synthese involviert ist und auch in zelluläre Redox-Regulationssysteme eingreift und Transkriptionsfaktoren beeinflusst. Das Selenoprotein P, das bis zu 10 Seleocysteinreste pro Molekül enthält, baut Peroxinitrit ab, das seinerseits ein starkes Agens bei der Nitrosylation von Biomolekülen ist. Zusätzlich reduziert Selenoprotein P auch Phospholipid-Hydroperoxide, wenn auch weniger effektiv als PH-GPx. Es konnte in Vorarbeiten gezeigt werden, dass Selenoproteine im Gastrointestinaltrakt eine differentielle Expression aufweisen. Kürzlich konnte in unserer Arbeitsgruppe die inverse mRNA-Expression selnocysteinhaltigen Proteine GI-GPx und Selenoprotein P in kolorektalen Adenomen im Vergleich zur Normalmukosa charakterisiert werden. Dabei zeigte sich eine dramatische Abnahme der Selenoprotein P-Expression, während die Expression der GI-GPx signifikant erhöht war. Im Rahmen der vorliegenden Arbeit untersuchten wir die Expression der GI-GPx in kolorektalen Karzinomen und Kolonkarzinom-Zelllinien, um auf Ebene der Selenoprotein-kodierenden Gene nach Alterationen zu suchen, die die veränderte Expression mit verursachen könnten.
Im seltenen Krankheitsbild der Hypophosphatasie (HPP) treten aufgrund der Fehlfunktion der Gewebe-unspezifischen Alkalischen Phosphatase (tissue-nonspecific alkaline phosphatase, TNAP) skelettale und dentale Symptome in sehr variabler Ausprägung auf. Der vorzeitige Verlust von Milchzähnen ist das zahnmedizinische Leitsymptom und in vielen Fällen ein erstes Anzeichen dieser Erkrankung. In dieser Arbeit wurde ein in vitro Modell der HPP etabliert und der Fokus auf die dentalen Aspekte dieser Erkrankung gelegt. Hierzu wurden mesenchymale Stammzellen (MSCs) aus Bereichen analysiert, die bei einer Erkrankung von dieser Mineralisierungsstörung betroffen sind. Es wurden dentale Stammzellen aus der Pulpa (dental pulp stem cells, DPSCs) und dem parodontalen Ligament (periodontal ligament stem cells, PDLSCs) isoliert und im Vergleich zu Stammzellen aus dem Knochenmark (bone marrow mesenchymal stem cells, BMSCs) charakterisiert. Um den Einfluss der Spendervariabilität zu reduzieren, wurden aus dem gesamten dentalen Probenmaterial nur vollständige Probenpaare aus DPSCs und PDLSCs von 5 Spendern für die vergleichenden Analysen verwendet. Die dentalen MSCs konnten somit paarweise direkt miteinander verglichen werden.
DPSCs gelten seit ihrer Entdeckung von Gronthos et al. im Jahr 2000 als geeignete Quelle für die Stammzellgewinnung mit vielversprechenden Anwendungsmöglichkeiten im Bereich des Tissue Engineering und der regenerativen muskuloskelettalen Medizin. PDLSCs sind aufgrund der parodontalen Problematik der HPP von besonderem Interesse in dieser Arbeit. Die Isolation von Stammzellen aus Pulpa und PDL konnte mit dem Nachweis der sogenannten Minimalkriterien für MSCs bestätigt werden.
In diesem durch Enzyminhibition mit Levamisol induzierten in vitro Modell der HPP wurde die TNAP-abhängige Genexpression, die Enzym-Aktivität und das osteogene Differenzierungspotenzial an diesen drei Mineralisierungs-assoziierten MSCs untersucht. Die erweiterte Genexpressionsanalyse in Kooperation mit der Core Unit Systemmedizin der Universität Würzburg mit einer RNA-Sequenzierung der PDLSCs ergab interessante Einblicke in die differentielle Genexpression nach der TNAP-Inhibition während der osteogenen Differenzierung und Ansatzpunkte für weitere Analysen. Die beobachteten Genregulationen waren nach dem derzeitigen Verständnis pathologischer Zusammenhänge nachvollziehbar und simulierten in vitro HPP-relevante Signalwege repräsentativ. Insbesondere die signifikante Genregulation von P2X7 und DMP1, sowie Zusammenhänge aus dem Wnt-Signalweg zeigen hinsichtlich der dentalen Aspekte der HPP neue Ansatzpunkte auf. Die erhöhte P2X7-Expression in diesem in vitro HPP-Modell scheint mit der Parodontitis-Problematik der HPP zu korrelieren und verdeutlicht unter anderem die multifaktorielle Ätiologie und Pathogenese der Parodontitis. Die Tatsache, dass die experimentellen Beobachtungen in Einklang mit dem klinischen Bild der HPP gebracht werden können, bestätigt die Relevanz des hier etablierten in vitro Modells. Zusammenfassend konnten anhand dieses in vitro Modells der HPP neue Aspekte aufgedeckt werden, die nicht nur im Hinblick auf die dentale Problematik der HPP aufschlussreich sind.