Publications by authors named "Giovanni Traverso"
Biotherapeutics are among the therapeutics that have revolutionized standard inflammatory bowel disease (IBD) treatment, which was previously limited to mesalamine, 5-aminosalicylic acid, corticosteroids, and classical immunosuppressants. Self-administrable biotherapeutics for IBD would enable home-based treatment and reduce the burden on medical infrastructure. Self-administration is made possible through subcutaneous injectable, oral, and rectal dosage forms.
View Article and Find Full Text PDFTissue repair is often impaired in pathological states, highlighting the need for innovative wound-healing technologies. This study introduces composite hyaluronic acid gas-entrapping materials (GEMs) delivering carbon monoxide (CO) to promote wound healing in pigs. These composite materials facilitate burst release followed by sustained release of CO over 48 h.
View Article and Find Full Text PDFThe development of novel therapeutics in the field of spinal neurosurgery faces a litany of translational challenges. Achieving precise drug targeting within the confined spaces associated with the spinal cord, canal and vertebra requires the development of next generation delivery systems and devices. These must be capable of overcoming inherent barriers related to drug diffusion, whilst concurrently ensuring optimal drug distribution and retention.
View Article and Find Full Text PDFArticle Synopsis
- The text discusses the need for a method to constantly monitor the integrity of spinal hardware, as current methods fail to detect issues until symptoms appear, which could lead to serious complications.* -
- It introduces a new technology called BioMDA (bio-adhesive metal detector array), designed to provide real-time, non-invasive tracking of spinal implants without using radiation.* -
- The BioMDA features advanced electromagnetic coupling for precise positioning of implants, achieving accuracy levels under 0.5 mm, potentially revolutionizing postoperative monitoring of spinal instrumentation.*
Article Synopsis
- Ingestible electronics could greatly improve diagnosis and treatment for various health issues, but current technologies face challenges like poor contact with tissues and limited battery life.
- A new device called the ingestible robotic interface (IngRI) has been developed to overcome these challenges, allowing for chronic stimulation of the gut without needing a battery.
- Testing in swine showed that IngRI effectively interacts with gut tissue and can influence hormone levels, indicating its potential for appetite regulation and other medical uses.
Microorganisms typically used to produce food and pharmaceuticals are now being explored as medicines and agricultural supplements. However, maintaining high viability from manufacturing until use remains an important challenge, requiring sophisticated cold chains and packaging. Here we report synthetic extremophiles of industrially relevant gram-negative bacteria (Escherichia coli Nissle 1917, Ensifer meliloti), gram-positive bacteria (Lactobacillus plantarum) and yeast (Saccharomyces boulardii).
View Article and Find Full Text PDFDiabetic wound healing is uniquely challenging to manage due to chronic inflammation and heightened microbial growth from elevated interstitial glucose. Carbon monoxide (CO), widely acknowledged as a toxic gas, is also known to provide unique therapeutic immune modulating effects. To facilitate delivery of CO, we have designed hyaluronic acid-based CO-gas-entrapping materials (CO-GEMs) for topical and prolonged gas delivery to the wound bed.
View Article and Find Full Text PDFAchieving tunable rupturing of eutectic gallium indium (EGaIn) particles holds great significance in flexible electronic applications, particularly pressure sensors. We tune the mechanosensitivity of EGaIn particles by preparing them in toluene with thiol surfactants and demonstrate an improvement over typical preparations in ethanol. We observe, across multiple length scales, that thiol surfactants and the nonpolar solvent synergistically reduce the applied stress requirements for electromechanical actuation.
View Article and Find Full Text PDFArticle Synopsis
- Chemotherapy dosing traditionally relies on patient weight and height, which often leads to significant variations in drug levels, potentially causing under- or overdosing.
- A new closed-loop drug delivery system, known as CLAUDIA, can automatically adjust drug infusion rates to maintain target drug concentrations in patients, regardless of their individual pharmacokinetics.
- Tests showed that CLAUDIA effectively kept the concentration of 5-fluorouracil within range, unlike conventional BSA-based dosing, and is also more cost-effective, with potential for rapid clinical implementation.
Article Synopsis
- Postoperative ileus (POI) often causes extended hospital stays after abdominal surgery due to digestive tract paralysis, leading to symptoms like constipation and vomiting.
- Currently, treatments for POI are mainly supportive and not very effective, prompting the development of a new device called INSPIRE, which is an ingestible and self-propelling device designed to stimulate intestinal movement.
- In tests on swine models, the INSPIRE device significantly improved intestinal motility, with a 44% increase in normal cases and a 140% improvement in chemically induced ileus, drastically reducing the average passage time from 8.6 days to 2.5 days, making it a promising noninvasive treatment option for motility disorders.
Article Synopsis
- Pills are essential in medicine but can be hard to swallow, while liquid forms lack specific therapeutic targeting and controlled release.
- The study introduces liquid in situ-forming tough (LIFT) hydrogels, which create a gel in the stomach by mixing two solutions, allowing for a better drug delivery method.
- Tested in live rats and pigs, LIFT hydrogels are strong, safe, and effectively deliver drugs while protecting sensitive therapeutic enzymes and bacteria from stomach acid, potentially aiding patients who struggle with traditional medicine forms.
In vitro systems that accurately model in vivo conditions in the gastrointestinal tract may aid the development of oral drugs with greater bioavailability. Here we show that the interaction profiles between drugs and intestinal drug transporters can be obtained by modulating transporter expression in intact porcine tissue explants via the ultrasound-mediated delivery of small interfering RNAs and that the interaction profiles can be classified via a random forest model trained on the drug-transporter relationships. For 24 drugs with well-characterized drug-transporter interactions, the model achieved 100% concordance.
View Article and Find Full Text PDFArticle Synopsis
- * This review highlights recent advancements in microneedle sensor technology, emphasizing their application in POC diagnostics and personalized medicine through various sensing techniques and customizable designs.
- * Microneedle sensors can detect a broad spectrum of biomarkers and are being developed with advanced bioengineering strategies for continuous and minimally invasive health monitoring, pointing towards a future of personalized health management.
Effective therapies for obesity require invasive surgical and endoscopic interventions or high patient adherence, making it challenging for patients with obesity to effectively manage their disease. Gastric mechanoreceptors sense distension of the stomach and perform volume-dependent vagal signaling to initiate the gastric phase and influence satiety. In this study, we developed a new luminal stimulation modality to specifically activate these gastric stretch receptors to elicit a vagal afferent response commensurate with mechanical distension.
View Article and Find Full Text PDFArticle Synopsis
- Inhibition of autophagy shows potential to improve cancer treatment, but results have varied in clinical settings.
- A study analyzed patients treated with hydroxychloroquine (an autophagy inhibitor) and found a link between smoking and autophagy inhibition.
- The research suggests that adding carbon monoxide (CO) can boost the effectiveness of autophagy inhibitors, potentially leading to better cancer therapies.
Secure and Stable Wireless Communication for an Ingestible Device.
Annu Int Conf IEEE Eng Med Biol Soc
July 2023
Wireless communication enables an ingestible device to send sensor information and support external on-demand operation while in the gastrointestinal (GI) tract. However, it is challenging to maintain stable wireless communication with an ingestible device that travels inside the dynamic GI environment as this environment easily detunes the antenna and decreases the antenna gain. In this paper, we propose an air-gap based antenna solution to stabilize the antenna gain inside this dynamic environment.
View Article and Find Full Text PDFEnergy-Efficient Ingestible Drug Delivery System in the Dynamic Gastrointestinal Environment.
Annu Int Conf IEEE Eng Med Biol Soc
July 2023
Article Synopsis
- Ingestible electronics offer new ways for health monitoring and drug delivery directly in the gastrointestinal (GI) tract, which has varying pH levels that can affect device performance.
- The presented system uses an electrochemically dissolvable gold membrane to control drug release, adapting to the GI environment's pH for optimized functionality.
- This innovative design not only enhances drug delivery efficiency by reducing energy consumption by up to 42.8%, but also allows for targeted therapeutic effects at various locations within the GI tract.
Percutaneous cryoablation is a common clinical therapy for metastatic and primary cancer. There are rare clinical reports of cryoablation inducing regression of distant metastases, known as the "abscopal" effect. Intratumoral immunoadjuvants may be able to augment the abscopal rate of cryoablation, but existing intratumoral therapies suffer from the need for frequent injections and inability to confirm target delivery, leading to poor clinical trial outcomes.
View Article and Find Full Text PDFArticle Synopsis
- mRNA vaccines have been key in managing the COVID-19 pandemic and are being researched for other diseases, particularly their use at mucosal surfaces.
- * Mucosal application could tap into a unique immune response but faces challenges like degrading enzymes and mucus barriers that hinder mRNA uptake.
- * The review explores the immune response differences between mucosal and systemic mRNA vaccines and emphasizes the need for better delivery technologies and understanding of immune activation mechanisms in this emerging research area.
Localization and tracking of ingestible microdevices in the gastrointestinal (GI) tract is valuable for the diagnosis and treatment of GI disorders. Such systems require a large field-of-view of tracking, high spatiotemporal resolution, wirelessly operated microdevices and a non-obstructive field generator that is safe to use in practical settings. However, the capabilities of current systems remain limited.
View Article and Find Full Text PDFTriggerable coatings, such as pH-responsive polymethacrylate copolymers, can be used to protect the active pharmaceutical ingredients contained within oral solid dosage forms from the acidic gastric environment and to facilitate drug delivery directly to the intestine. However, gastrointestinal pH can be highly variable, which can reduce delivery efficiency when using pH-responsive drug delivery technologies. We hypothesized that biomaterials susceptible to proteolysis could be used in combination with other triggerable polymers to develop novel enteric coatings.
View Article and Find Full Text PDFArticle Synopsis
- Delivering heat could improve various biomedical technologies, such as drug delivery systems and cancer treatments, but current methods are often too power-hungry for wider use.
- Researchers created a new heating method using an exothermic reaction between liquid-metal-activated aluminum and water, allowing for consistent heat generation.
- They demonstrated this method by activating a gastric device made from Nitinol, and discussed potential future applications for this innovative heat generation technique.
Article Synopsis
- mRNA vaccines translate into proteins that trigger strong immune responses but face distribution challenges due to required ultracold storage and professional administration.
- Researchers developed an mRNA vaccine that can be taken orally and stored at 4 °C, making it more accessible for rural areas and developing countries.
- The study successfully demonstrated that the new vaccine formulation, using specific polymers, provoked effective immune responses in mice and could serve as an efficient oral delivery system for mRNA vaccines.
Simplification of complex medication regimens in polypharmacy positively contributes to treatment adherence and cost-effective improved health outcomes. Even though fixed dose combination (FDC) drug products are the only currently available single dose poly-pill regimens, the lack of flexibility in dose adjustment of a single drug in the combination limits their efficacy. To fill the existing gap in drug dose personalization and simplification of complex medication regimens commonly encountered in the treatment of cardiovascular disease, tuberculosis, and tapering of corticosteroid therapy, a modular titratable polypill approach that simultaneously addresses both aspects is proposed.
View Article and Find Full Text PDFEffective therapies for obesity either require invasive surgical or endoscopic interventions or high patient adherence, making it challenging for the nearly 42% of American adults who suffer from obesity to effectively manage their disease. Gastric mechanoreceptors sense distension of the stomach and perform volume-dependent vagal signaling to initiate the gastric phase and influence satiety. In this study, we developed a new luminal stimulation modality to specifically activate these gastric stretch receptors to elicit a vagal afferent response commensurate with mechanical distension.
View Article and Find Full Text PDF