Your search keyword '"Diedenhofen, G."' showing total 8 results

1. Optical sensor array based on P(V) corroles for fluorometric detection of nitrite

Author

Lvova, L., primary, Caroleo, F., additional, Catini, A., additional, Diedenhofen, G., additional, Paolesse, R., additional, and Di Natale, C., additional

Published

2019

2. Differences between Transient Neonatal Diabetes Mellitus Subtypes can Guide Diagnosis and Therapy

Author

Riccardo Bonfanti, Dario Iafusco, Ivana Rabbone, Giacomo Diedenhofen, Carla Bizzarri, Patrizia Ippolita Patera, Petra Reinstadler, Francesco Costantino, Valeria Calcaterra, Lorenzo Iughetti, Silvia Savastio, Anna Favia, Francesca Cardella, Donatella Lo Presti, Ylenia Girtler, Sarah Rabbiosi, Giuseppe D’Annunzio, Angela Zanfardino, Alessia Piscopo, Francesca Casaburo, Letizia Pintomalli, Lucia Russo, Valeria Grasso, Nicola Minuto, Mafalda Mucciolo, Antonio Novelli, Antonella Marucci, Barbara Piccini, Sonia Toni, Francesca Silvestri, Paola Carrera, Andrea Rigamonti, Giulio Frontino, Michela Trada, Davide Tinti, Maurizio Delvecchio, Novella Rapini, Riccardo Schiaffini, Corrado Mammì, Fabrizio Barbetti, Monica Aloe, Simona Amadeo, Claudia Arnaldi, Marta Bassi, Luciano Beccaria, Marzia Benelli, Giulia Maria Berioloi, Enrica Bertelli, Martina Biagioni, Adriana Bobbio, Stefano Boccato, Oriana Bologna, Franco Bontempi, Clara Bonura, Giulia Bracciolini, Claudia Brufani, Patrizia Bruzzi, Pietro Buono, Roberta Cardani, Giuliana Cardinale, Alberto Casertano, Maria Cristina Castiglione, Vittoria Cauvin, Valentino Cherubini, Franco Chiarelli, Giovanni Chiari, Stefano Cianfarani, Dante Cirillo, Felice Citriniti, Susanna Coccioli, Anna Cogliardi, Santino Confetto, Giovanna Contreas, Anna Corò, Elisa Corsini, Nicoletta Cresta, Fiorella De Berardinis, Valeria De Donno, Giampaolo De Filippo, Rosaria De Marco, Annalisa Deodati, Elena Faleschini, Valentina Fattorusso, Valeria Favalli, Barbara Felappi, Lucia Ferrito, Graziella Fichera, Franco Fontana, Elena Fornari, Roberto Franceschi, Francesca Franco, Adriana Franzese, Anna Paola Frongia, Alberto Gaiero, Francesco Gallo, Luigi Gargantini, Elisa Giani, Chiara Giorgetti, Giulia Bianchi, Vanna Graziani, Antonella Gualtieri, Monica Guasti, Gennaro Iannicelli, Antonio Iannilli, Ignaccolo Giovanna, Dario Ingletto, Stefania Innaurato, Elena Inzaghi, Brunella Iovane, Peter Kaufmann, Alfonso La Loggia, Rosa Lapolla, Anna Lasagni, Nicola Lazzaro, Lorenzo Lenzi, Riccardo Lera, Gabriella Levantini, Fortunato Lombardo, Antonella Lonero, Silvia Longhi, Sonia Lucchesi, Lucia Paola Guerraggio, Sergio Lucieri, Patrizia Macellaro, Claudio Maffeis, Bendetta Mainetti, Giulio Maltoni, Chiara Mameli, Francesco Mammì, Maria Luisa Manca-Bitti, Melania Manco, Monica Marino, Matteo Mariano, Marco Marigliano, Alberto Marsciani, Costanzo Mastrangelo, Maria Cristina Matteoli, Elena Mazzali, Franco Meschi, Antonella MIgliaccio, Anita Morandi, Gianfranco Morganti, Enza Mozzillo, Gianluca Musolino, Rosa Nugnes, Federica Ortolani, Daniela Pardi, Filomena Pascarella, Stefano Passanisi, Annalisa Pedini, Cristina Pennati, Angelo Perrotta, Sonia Peruzzi, Paola Peverelli, Giulia Pezzino, Anita Claudia Piona, Gavina Piredda, Carmelo Pistone, Elena Prandi, Barbara Pedieri, Procolo Di Bonito, Anna Pulcina, Maria Quinci, Emioli Randazzo, Rossella Ricciardi, Carlo Ripoli, Rosanna Roppolo, Irene Rutigliano, Alberto Sabbio, Silvana salardi, Alessandro Salvatoni, Anna Saporiti, Rita Sardi, Mariapiera Scanu, Andrea Scaramuzza, Eleonardo Schiven, Andrea Secco, Linda Sessa, Paola Sogno Valin, Silvia Sordelli, Luisa Spallino, Stefano Stagi, Filomena Stamati, Tosca Suprani, Valentina Talarico, Tiziana Timapanaro, Antonella Tirendi, Letizia Tomaselli, Gianluca Tornese, Adolfo Andrea Trettene, Stefano Tumini, Giuliana Valerio, Claudia Ventrici, Matteo Viscardi, Silvana Zaffani, Maria Zampolli, Giorgio Zanette, Clara Zecchino, Maria Antonietta Zedda, Silvia Zonca, Stefano Zucchini, Bonfanti, R., Iafusco, D., Rabbone, I., Diedenhofen, G., Bizzarri, C., Patera, P. I., Reinstadler, P., Costantino, F., Calcaterra, V., Iughetti, L., Savastio, S., Favia, A., Cardella, F., Presti, D. L., Girtler, Y., Rabbiosi, S., D'Annunzio, G., Zanfardino, A., Piscopo, A., Casaburo, F., Pintomalli, L., Russo, L., Grasso, V., Minuto, N., Mucciolo, M., Novelli, A., Marucci, A., Piccini, B., Toni, S., Silvestri, F., Carrera, P., Rigamonti, A., Frontino, G., Trada, M., Tinti, D., Delvecchio, M., Rapini, N., Schiaffini, R., Mammi, C., and Barbetti, F.

Subjects

Proband, Male, Pediatrics, Potassium Channels, Endocrinology, Diabetes and Metabolism, Datasets as Topic, Diagnosis, Differential, Diagnostic Techniques, Endocrine, Female, Humans, Infant, Infant, Newborn, Italy, Mutation, Potassium Channels, Inwardly Rectifying, Remission Induction, Retrospective Studies, Sulfonylurea Receptors, Diabetes Mellitus, Infant, Newborn, Diseases, Diseases, Gastroenterology, Diabetes mellitus genetics, Endocrinology, Settore MED/13, Retrospective Studie, Diagnosis, Medicine, Endocrine pancreas, Transient Neonatal Diabetes Mellitus, 6q24 TNDM, KATP TNDM, Sulfonylureas, Sulfonylureas, Sulfonylurea Receptor, biology, Diabetes Mellitu, General Medicine, Metformin, Inwardly Rectifying, Settore MED/03, 6q24 TNDM, medicine.symptom, Endocrine, hormones, hormone substitutes, and hormone antagonists, medicine.drug, Human, endocrine system, medicine.medical_specialty, KATP TNDM, ABCC8, Transient Neonatal Diabetes Mellitus, Internal medicine, Diabetes mellitus, Macroglossia, Endocrine pancreas, business.industry, medicine.disease, Newborn, Diagnostic Techniques, Transient neonatal diabetes mellitus, Differential, biology.protein, Sulfonylurea receptor, business

Abstract

Objective Transient neonatal diabetes mellitus (TNDM) is caused by activating mutations in ABCC8 and KCNJ11 genes (KATP/TNDM) or by chromosome 6q24 abnormalities (6q24/TNDM). We wanted to assess whether these different genetic aetiologies result in distinct clinical features. Design Retrospective analysis of the Italian data set of patients with TNDM. Methods Clinical features and treatment of 22 KATP/TNDM patients and 12 6q24/TNDM patients were compared. Results Fourteen KATP/TNDM probands had a carrier parent with abnormal glucose values, four patients with 6q24 showed macroglossia and/or umbilical hernia. Median age at diabetes onset and birth weight were lower in patients with 6q24 (1 week; −2.27 SD) than those with KATP mutations (4.0 weeks; −1.04 SD) (P = 0.009 and P = 0.007, respectively). Median time to remission was longer in KATP/TNDM than 6q24/TNDM (21.5 weeks vs 12 weeks) (P = 0.002). Two KATP/TNDM patients entered diabetes remission without pharmacological therapy. A proband with the ABCC8/L225P variant previously associated with permanent neonatal diabetes entered 7-year long remission after 1 year of sulfonylurea therapy. Seven diabetic individuals with KATP mutations were successfully treated with sulfonylurea monotherapy; four cases with relapsing 6q24/TNDM were treated with insulin, metformin or combination therapy. Conclusions If TNDM is suspected, KATP genes should be analyzed first with the exception of patients with macroglossia and/or umbilical hernia. Remission of diabetes without pharmacological therapy should not preclude genetic analysis. Early treatment with sulfonylurea may induce long-lasting remission of diabetes in patients with KATP mutations associated with PNDM. Adult patients carrying KATP/TNDM mutations respond favourably to sulfonylurea monotherapy.

Published

2021

3. Screening for colorectal cancer by full colonoscopy in first-degree relatives of colorectal cancer patients: a multicentric study by the Italian League for the Fight against Cancer.

Author

Diedenhofen G, Morgia A, Sinnona N, Pacchiarotti A, Fiaschetti A, Forte V, Tosoni M, Liberati F, Boschetto S, Zepponi E, Marogna P, Manca A, Bisail M, Vestri A, and Rossi A

Subjects

Humans, Italy, Female, Male, Middle Aged, Aged, Adult, Mass Screening methods, Occult Blood, Colonoscopy, Colorectal Neoplasms diagnosis, Colorectal Neoplasms prevention & control, Early Detection of Cancer methods

Abstract

Background: Colorectal cancer currently presents the third-highest incidence of cancers worldwide, making secondary prevention through screening programs for colorectal cancer, usually by Fecal Occult Blood Testing, an essential preventive medicine intervention. First-degree relatives of colorectal cancer patients are a particularly at-risk group, with indications to consider direct screening by full colonoscopy. Colonoscopy is considered the gold standard for diagnosing colorectal cancer, as it has high sensitivity and specificity, and is both a diagnostic and therapeutic tool. However, it requires significant organizational and financial resources, and has a small but relatively higher risk of complications as opposed to fecal occult blood testing. The present study aimed to assess the appropriateness of a screening program without age restrictions of CRC by full colonoscopy in asymptomatic, first-degree adult relatives of patients with colorectal cancer, aiming both to actively increase screening coverage and to determine the detection rate of precancerous lesions and colorectal cancer in this population., Study Design: Uncontrolled interventional study - colorectal cancer screening by full colonoscopy for at-risk population., Methods: The Italian League for the Fight against Cancer started a colorectal cancer screening program by full colonoscopy for first-degree relatives of colorectal cancer patients in 1998 in the province of Latina, Lazio Region, Italy. The program was expanded to the provinces of Rieti, Lazio Region, and Sassari, Sardinia Region, in 2014 and 2016 respectively, and was concluded in 2018. Subjects were actively and voluntarily recruited by the study's working group. Subjects that had already been subjected to a full colonoscopy in the preceding 5 years were excluded from this study. Identified neoplastic lesions were treated either directly or referred to the Day Hospital setting, and histologically diagnosed following World Health Organization guidelines., Results: In total, 2,288 subjects (age range 15-88, mean 52.3 yrs, M/F = 946/1,204) were screened by colonoscopy, of which 103 (4.5%) were incomplete and 2,173 (95.0%) complete, with data on colonoscopy performance missing for 12 participants. Out of 468 positive outcomes on colonoscopy, diagnosis for 422 (204M/173F), 19.4% of total subjects, was adenomatous polyps and 46 (20M/20F), 2.1% of total subjects, was colorectal cancer. Female sex was a protective factor against a positive test outcome, with a 35% reduction compared to male sex, with OR=0.64 95%CI (0.52-0.80). On the other hand, being over 50 years of age was found to be a risk factor, making a positive outcome more than twice as likely, with OR=2.3 95%CI (1.8-2.9). Subjects over 50 also had significantly more instances of multiple adenomas being found, however the size distribution of found adenomas was not significantly different between subjects under and over 50, despite size being a predictor of risk of neoplastic progression., Conclusions: Given the high detection rate of precancerous lesions and colorectal cancer in the studied population, it is our opinion that guidelines should continue to recommend earlier and more frequent screening in first-degree relatives of patients with colorectal cancer, and, barring the introduction of more cost-effective and/or lower risk procedures with a similar efficacy profile, maintain the use of colonoscopy as the main screening option.

Published

2024

4. Perspectives on AI use in medicine: views of the Italian Society of Artificial Intelligence in Medicine.

Author

Causio FA, DE Angelis L, Diedenhofen G, Talio A, and Baglivo F

Subjects

Humans, Italy, Societies, Medical, Delivery of Health Care, Artificial Intelligence

Abstract

The first annual meeting of the Italian Society for Artificial Intelligence in Medicine (Società Italiana Intelligenza Artificiale in Medicina, SIIAM) on December 7, 2023, marked a significant milestone in integrating artificial intelligence (AI) into Italy's healthcare framework. This paper reports on the collaborative workshop conducted during this event, highlighting the collective efforts of 51 professionals from diverse fields including medicine, engineering, data science, and law. The interdisciplinary background of the participants played a crucial role in generating ideas for innovative AI solutions tailored to healthcare challenges. Central to the discussions were several AI applications aimed at improving patient care and streamlining healthcare processes. Notably, the use of Large Language Models (LLMs) in remote monitoring of chronic patients emerged as an area of focus. These models promise enhanced patient monitoring through detailed symptom checking and anomaly detection, thereby facilitating timely medical interventions. Another significant proposal involved employing LLMs to improve empathy in medical communication, addressing the challenges posed by cultural diversity and high-stress levels among healthcare professionals. Additionally, the development of Machine Learning algorithms for standardizing treatment in pediatric emergency departments was discussed, along with the need for educational initiatives to enhance AI adoption in rural healthcare settings. The workshop also explored using LLMs for efficient data extraction and analysis in scientific literature, interpreting healthcare norms, and streamlining hospital discharge records. This paper provides a comprehensive overview of the ideas and solutions proposed at the workshop, reflecting the participants' forward-thinking vision and the potential of AI to revolutionize healthcare., Competing Interests: The authors declare no conflict of interest., (©2024 Pacini Editore SRL, Pisa, Italy.)

Published

2024

5. Differences between transient neonatal diabetes mellitus subtypes can guide diagnosis and therapy.

Author

Bonfanti R, Iafusco D, Rabbone I, Diedenhofen G, Bizzarri C, Patera PI, Reinstadler P, Costantino F, Calcaterra V, Iughetti L, Savastio S, Favia A, Cardella F, Lo Presti D, Girtler Y, Rabbiosi S, D'Annunzio G, Zanfardino A, Piscopo A, Casaburo F, Pintomalli L, Russo L, Grasso V, Minuto N, Mucciolo M, Novelli A, Marucci A, Piccini B, Toni S, Silvestri F, Carrera P, Rigamonti A, Frontino G, Trada M, Tinti D, Delvecchio M, Rapini N, Schiaffini R, Mammì C, and Barbetti F

Subjects

Datasets as Topic, Diagnosis, Differential, Diagnostic Techniques, Endocrine standards, Female, Humans, Infant, Infant, Newborn, Italy, Male, Mutation, Potassium Channels, Inwardly Rectifying genetics, Remission Induction methods, Retrospective Studies, Sulfonylurea Receptors genetics, Diabetes Mellitus classification, Diabetes Mellitus congenital, Diabetes Mellitus diagnosis, Diabetes Mellitus genetics, Diabetes Mellitus therapy, Infant, Newborn, Diseases classification, Infant, Newborn, Diseases diagnosis, Infant, Newborn, Diseases genetics, Infant, Newborn, Diseases therapy

Abstract

Objective: Transient neonatal diabetes mellitus (TNDM) is caused by activating mutations in ABCC8 and KCNJ11 genes (KATP/TNDM) or by chromosome 6q24 abnormalities (6q24/TNDM). We wanted to assess whether these different genetic aetiologies result in distinct clinical features., Design: Retrospective analysis of the Italian data set of patients with TNDM., Methods: Clinical features and treatment of 22 KATP/TNDM patients and 12 6q24/TNDM patients were compared., Results: Fourteen KATP/TNDM probands had a carrier parent with abnormal glucose values, four patients with 6q24 showed macroglossia and/or umbilical hernia. Median age at diabetes onset and birth weight were lower in patients with 6q24 (1 week; -2.27 SD) than those with KATP mutations (4.0 weeks; -1.04 SD) (P = 0.009 and P = 0.007, respectively). Median time to remission was longer in KATP/TNDM than 6q24/TNDM (21.5 weeks vs 12 weeks) (P = 0.002). Two KATP/TNDM patients entered diabetes remission without pharmacological therapy. A proband with the ABCC8/L225P variant previously associated with permanent neonatal diabetes entered 7-year long remission after 1 year of sulfonylurea therapy. Seven diabetic individuals with KATP mutations were successfully treated with sulfonylurea monotherapy; four cases with relapsing 6q24/TNDM were treated with insulin, metformin or combination therapy., Conclusions: If TNDM is suspected, KATP genes should be analyzed first with the exception of patients with macroglossia and/or umbilical hernia. Remission of diabetes without pharmacological therapy should not preclude genetic analysis. Early treatment with sulfonylurea may induce long-lasting remission of diabetes in patients with KATP mutations associated with PNDM. Adult patients carrying KATP/TNDM mutations respond favourably to sulfonylurea monotherapy.

Published

2021

6. Reduced replication fork speed promotes pancreatic endocrine differentiation and controls graft size.

Author

Sui L, Xin Y, Du Q, Georgieva D, Diedenhofen G, Haataja L, Su Q, Zuccaro MV, Kim J, Fu J, Xing Y, He Y, Baum D, Goland RS, Wang Y, Oberholzer J, Barbetti F, Arvan P, Kleiner S, and Egli D

Subjects

Animals, Aphidicolin, Cell Proliferation, Humans, Insulin metabolism, Islets of Langerhans, Mice, Pancreas, Pluripotent Stem Cells, Transplants, Cell Cycle, Cell Differentiation, DNA Replication, Diabetes Mellitus therapy, Induced Pluripotent Stem Cells, Insulin-Secreting Cells, Stem Cell Transplantation

Abstract

Limitations in cell proliferation are important for normal function of differentiated tissues and essential for the safety of cell replacement products made from pluripotent stem cells, which have unlimited proliferative potential. To evaluate whether these limitations can be established pharmacologically, we exposed pancreatic progenitors differentiating from human pluripotent stem cells to small molecules that interfere with cell cycle progression either by inducing G1 arrest or by impairing S phase entry or S phase completion and determined growth potential, differentiation, and function of insulin-producing endocrine cells. We found that the combination of G1 arrest with a compromised ability to complete DNA replication promoted the differentiation of pancreatic progenitor cells toward insulin-producing cells and could substitute for endocrine differentiation factors. Reduced replication fork speed during differentiation improved the stability of insulin expression, and the resulting cells protected mice from diabetes without the formation of cystic growths. The proliferative potential of grafts was proportional to the reduction of replication fork speed during pancreatic differentiation. Therefore, a compromised ability to enter and complete S phase is a functionally important property of pancreatic endocrine differentiation, can be achieved by reducing replication fork speed, and is an important determinant of cell-intrinsic limitations of growth.

Published

2021

7. Stimulation of CRISPR-mediated homology-directed repair by an engineered RAD18 variant.

Author

Nambiar TS, Billon P, Diedenhofen G, Hayward SB, Taglialatela A, Cai K, Huang JW, Leuzzi G, Cuella-Martin R, Palacios A, Gupta A, Egli D, and Ciccia A

Subjects

Clustered Regularly Interspaced Short Palindromic Repeats, DNA Damage, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, Gene Editing, Humans, Protein Domains, Protein Engineering, Recombinational DNA Repair, Ubiquitin-Protein Ligases chemistry, Ubiquitin-Protein Ligases genetics, DNA-Binding Proteins metabolism, Ubiquitin-Protein Ligases metabolism

Abstract

Precise editing of genomic DNA can be achieved upon repair of CRISPR-induced DNA double-stranded breaks (DSBs) by homology-directed repair (HDR). However, the efficiency of this process is limited by DSB repair pathways competing with HDR, such as non-homologous end joining (NHEJ). Here we individually express in human cells 204 open reading frames involved in the DNA damage response (DDR) and determine their impact on CRISPR-mediated HDR. From these studies, we identify RAD18 as a stimulator of CRISPR-mediated HDR. By defining the RAD18 domains required to promote HDR, we derive an enhanced RAD18 variant (e18) that stimulates CRISPR-mediated HDR in multiple human cell types, including embryonic stem cells. Mechanistically, e18 induces HDR by suppressing the localization of the NHEJ-promoting factor 53BP1 to DSBs. Altogether, this study identifies e18 as an enhancer of CRISPR-mediated HDR and highlights the promise of engineering DDR factors to augment the efficiency of precision genome editing.

Published

2019

8. Human osteogenic differentiation in Space: proteomic and epigenetic clues to better understand osteoporosis.

Author

Gambacurta A, Merlini G, Ruggiero C, Diedenhofen G, Battista N, Bari M, Balsamo M, Piccirillo S, Valentini G, Mascetti G, and Maccarrone M

Subjects

Biomarkers metabolism, Cell Differentiation, Cell Lineage, GATA4 Transcription Factor metabolism, Histones metabolism, Humans, Mesenchymal Stem Cells cytology, Osteoporosis genetics, Osteoporosis metabolism, Otx Transcription Factors metabolism, Proteomics, SOXF Transcription Factors metabolism, Sirolimus pharmacology, Snail Family Transcription Factors metabolism, Aerospace Medicine, Epigenesis, Genetic, Osteogenesis, Osteoporosis physiopathology, Proteome, Weightlessness

Abstract

In the frame of the VITA mission of the Italian Space Agency (ASI), we addressed the problem of Space osteoporosis by using human blood-derived stem cells (BDSCs) as a suitable osteogenic differentiation model. In particular, we investigated proteomic and epigenetic changes in BDSCs during osteoblastic differentiation induced by rapamycin under microgravity conditions. A decrease in the expression of 4 embryonic markers (Sox2, Oct3/4, Nanog and E-cadherin) was found to occur to a larger extent on board the ISS than on Earth, along with an earlier activation of the differentiation process towards the osteogenic lineage. The changes in the expression of 4 transcription factors (Otx2, Snail, GATA4 and Sox17) engaged in osteogenesis supported these findings. We then ascertained whether osteogenic differentiation of BDSCs could depend on epigenetic regulation, and interrogated changes of histone H3 that is crucial in this type of gene control. Indeed, we found that H3K4me3, H3K27me2/3, H3K79me2/3 and H3K9me2/3 residues are engaged in cellular reprogramming that drives gene expression. Overall, we suggest that rapamycin induces transcriptional activation of BDSCs towards osteogenic differentiation, through increased GATA4 and Sox17 that modulate downstream transcription factors (like Runx2), critical for bone formation. Additional studies are warranted to ascertain the possible exploitation of these data to identify new biomarkers and therapeutic targets to treat osteoporosis, not only in Space but also on Earth.

Published

2019