View clinical trials related to Supportive Care.
Filter by:This is a two-arm, randomized, open label, two-center, controlled study to evaluate the safety and efficacy of Viusid plus Asbrip in patients with mild and moderate symptoms of respiratory illness caused by Coronavirus 2019 infection.
The purpose of this project is to evaluate efficacy of Bright IDEAS, an evidence-based problem-solving skills training (PSST) program, as a supportive care intervention for young adult (YA) cancer patients compared with enhanced usual psychosocial care with 344 young adult patients newly diagnosed with cancer.
The parotid gland receives sensory and autonomic innervation. Sensory innervation is supplied by the auriculotemporal nerve (gland) and the great auricular nerve (fascia). The parasympathetic innervation to the parotid gland begins with the glossopharyngeal nerve. This nerve synapses with the otic ganglion. The auriculotemporal nerve then carries parasympathetic fibers from the otic ganglion to the parotid gland. Parasympathetic stimulation increase saliva production. Sympathetic innervation from the superior cervical ganglion, part of the paravertebral chain
This study will test whether supportive care follow-up delivered to cancer patients at home by telemedicine ("virtual" medical visits using telecommunications technologies) is as effective as in-person supportive care visits in the clinic.
Cancer patients often require administration of multiple supportive care pharmacotherapies while receiving chemotherapy regardless the type of cancer. Supportive care therapies are commonly prescribed to nearly all cancer patients and could include antiemetics (ondansetron), pain management (opiates), GI protection (PPIs), antidepressants (select SSRIs), anticoagulation (warfarin) and antifungal prophylaxis (voriconazole). These are all are associated with known pharmacogenetic interactions, which in some cases render the drugs ineffective or toxic. This could result in negative impacts on quality of life in patients who are already undergoing complicated and costly anticancer regimens. Pharmacogenetic-guided therapy based on an individual patient's genetic profile could potentially target symptoms for which an individual is uniquely susceptible, guiding use of medications that are most likely to be effective, thereby reducing unnecessary physical complications and financial strain. It is hypothesized that patients in the genotype intervention arm will report lower scores for overall symptom distress as compared to patients in the delayed genotype intervention arm following initiation of chemotherapy.
GM2 gangliosidosis is an autosomal recessive subtype of Lysosomal Storage Diseases in which, Hexosaminidase A-B deficiency is caused by HEXA-B gene. HEXA deficiency is seen in Tay sachs and HEXB deficiency causes Sandhoff disease. Infantile forms of Sandhoff and Tay sachs are often lethal and management of the patients is supportive including nutrition, hydration, seizure control and management of respiratory problems. Recent studies have suggested new methods of treatment, such as enzyme replacement therapy, bone marrow transplantation and substrate reduction therapy. The first drug used in SRT was Miglustat. It was introduced in 1980 as an anti HIV agent and later, it was registered under the trademark of Zavesca in 2009 and was used in treatment of Gaucher and Niemann-Pick disease. Zavesca passes blood brain barrier, so causes reduction of cholesterol and glycosphingolipids CNS neurons and relief of neurologic manifestations. Improvements were seen in oculomotor function, cognition, swallowing, motor disturbances and psychological problems after treatment with Zavesca. No effect has been proved on visceral involvement. Weight loss during first year of treatment, diarrhea and dyspepsia are seen as side effects. Studies on SRT in lysosomal storage disease have different results. Some show improvements in manifestations of Gausche, Sandhoff & Tay sachs disease, while others show no valuable benefit for this method of treatment. Finding an effective treatment for these chronic diseases can improve quality of life for the patients and their families, and also reduce costs for healthcare services. The controversy persists and more studies are needed for judgment. So this study is done to evaluate the effect of Miglustat therapy in Sandhoff and Tay sachs disease, and is believed to help for further studies in this field.
The purpose of this study is to understand current practices for engaging with informal (unpaid) caregivers of patients with cancer, characterize the availability of supportive care services, and assess the perspectives of multi-disciplinary oncology health care providers regarding identifying and supporting caregivers.
To pilot test the feasibility, usability, and preliminary efficacy of the D-SCAN mobile application in cancer patients and caregivers at Duke.
The Advanced Symptom Monitoring and Management System - Canada (ASyMS-Can) is a remote phone-based symptom management system that prompts patient self-care and clinician telephone triage and intervention based on alerts for managing cancer treatment side effects such as nausea and vomiting, fatigue, etc. ASyMS-Can is an android phone-based application that is given to patients to self-report their symptoms using a patient reported outcome symptom questionnaire and level of severity daily, on a secure mobile android phone, from home or outside of clinics. Based on back-end computations, patients receive automated self-care notifications on their mobile phones with advice on self-care for mild to moderate severe symptoms. The system also in the case of severe symptoms will alert the designated clinic nurse to prompt electronic telephone triage and intervention (yellow alert response in 4 hours or within 30 minutes for severe symptoms-red alert).
Rates of depression and anxiety in cancer patients are much higher compared to the general population. 40% of head and neck cancer patients will develop significant distress along the cancer journey. Less than half of these patients are able to access support, with factors such as age, social difficulty, cancer stage and site affecting referral. In 2016, 78,000 Canadians died of cancer, yet there is limited implementation of routine and integrated advanced care planning in cancer care. An upcoming deliverable of all cancer centres in Ontario is the integration of Cancer Care Ontario's Psychosocial and Palliative Care (PSOPC) pathway into all disease pathways. Successful widespread implementation of this pathway at Odette Cancer Centre (OCC) will impact >16,000 patients/year. If effective, it will reduce suffering, unnecessary healthcare utilization, improve treatment decisions and compliance, enable a better quality of life in survivorship and improve quality at end of life. There is a need for better developed, standardized response pathways to address PSO and PC needs throughout the patient's journey.