Hypoxia signaling in cancer: Implications for therapeutic interventions

Hypoxia is a persistent physiological feature of many different solid tumors and a key driver of malignancy, and in recent years, it has been recognized as an important target for cancer therapy. Hypoxia occurs in the majority of solid tumors due to a poor vascular oxygen supply that is not sufficient to meet the needs of rapidly proliferating cancer cells. A hypoxic tumor microenvironment (TME) can reduce the effectiveness of other tumor therapies, such as radiotherapy, chemotherapy, and immunotherapy. In this review, we discuss the critical role of hypoxia in tumor development, including tumor metabolism, tumor immunity, and tumor angiogenesis. The treatment methods for hypoxic TME are summarized, including hypoxia-targeted therapy and improving oxygenation by alleviating tumor hypoxia itself. Hyperoxia therapy can be used to improve tissue oxygen partial pressure and relieve tumor hypoxia. We focus on the underlying mechanisms of hyperoxia and their impact on current cancer therapies and discuss the prospects of hyperoxia therapy in cancer treatment.

Recent trends in the nanozeolites-based oxygen concentrators and their application in respiratory disorders

Medical-grade oxygen is the basic need for all medical complications, especially in respiratory-based discomforts. There was a drastic increase in the demand for medical-grade oxygen during the current pandemic. The non-availability of medical-grade oxygen led to several complications, including death. The oxygen concentrator was only the last hope for the patient during COVID-19 pandemic around the globe. The demands also are everlasting during other microbial respiratory infections. The yield of oxygen using conventional molecular zeolites in the traditional oxygen concentrator process is less than the yield noticed when its nano-form is used. Nanotechnology has enlightened hope for the efficient production of oxygen by such oxygen concentrators. Here in the current review work, the authors have highlighted the basic structural features of oxygen concentrators along with the current working principle. Besides, it has been tried to bridge the gap between conventional oxygen concentrators and advanced ones by using nanotechnology. Nanoparticles being usually within 100 nm in size have a high surface area to volume ratio, which makes them suitable adsorbents for oxygen. Here authors have suggested the use of nano zeolite in place of molecular zeolites in the oxygen concentrator for efficient delivery of oxygen by the oxygen concentrators.

Pharmacologic and Non-Pharmacologic Dyspnea Management in Advanced Cancer Patients

As there is a high propensity for patients with advanced malignancy to experience refractory dyspnea, it is necessary for physicians to be well-versed in the management of these patients' dyspneic symptoms. For symptomatic treatment of cancer patients with dyspnea, both pharmacologic and non-pharmacologic methods should be considered. The main source of pharmacologic symptom management for dyspnea is oral and parenteral opioids; benzodiazepines and corticosteroids may serve as helpful adjuncts alongside opioid treatments. However, oxygen administration and nebulized loop diuretics have not been shown to clinically benefit dyspneic cancer patients. Applying non-pharmacologic dyspnea management methods may be valuable palliative therapies for advanced cancer patients, as they provide benefit with negligible harm to the patient. Advantageous and minimally harmful non-pharmacologic dyspnea therapies include facial airflow, acupuncture and/or acupressure, breathing exercises, cognitive behavioral therapy, music therapy, and spiritual interventions. Thus, it is vital that physicians are prepared to provide symptomatic care for dyspnea in advanced cancer patients as to minimize suffering in this patient population during definitive cancer treatments or hospice care.

[Management of Adult Community-Acquired Pneumonia and Prevention - Update 2021 - Guideline of the German Respiratory Society (DGP), the Paul-Ehrlich-Society for Chemotherapy (PEG), the German Society for Infectious Diseases (DGI), the German Society of Medical Intensive Care and Emergency Medicine (DGIIN), the German Viological Society (DGV), the Competence Network CAPNETZ, the German College of General Practitioneers and Family Physicians (DEGAM), the German Society for Geriatric Medicine (DGG), the German Palliative Society (DGP), the Austrian Society of Pneumology Society (ÖGP), the Austrian Society for Infectious and Tropical Diseases (ÖGIT), the Swiss Respiratory Society (SGP) and the Swiss Society for Infectious Diseases Society (SSI)]

The present guideline provides a new and updated concept of the management of adult patients with community-acquired pneumonia. It replaces the previous guideline dating from 2016.The guideline was worked out and agreed on following the standards of methodology of a S3-guideline. This includes a systematic literature search and grading, a structured discussion of recommendations supported by the literature as well as the declaration and assessment of potential conflicts of interests.The guideline has a focus on specific clinical circumstances, an update on severity assessment, and includes recommendations for an individualized selection of antimicrobial treatment.The recommendations aim at the same time at a structured assessment of risk for adverse outcome as well as an early determination of treatment goals in order to reduce mortality in patients with curative treatment goal and to provide palliation for patients with treatment restrictions.

Symptom Burden and End-of-Life Palliative Treatments during the Last Two Weeks of Life in Patients with Advanced Musculoskeletal Sarcoma

Background: Musculoskeletal sarcomas (MSSs) are rare cancers and often aggressive tumors that originate from mesenchymal tissue. Patients with advanced MSS often report difficulties with symptom burden, which can reduce their health-related quality-of-life. Objective: The aim of this study was to describe the patterns of the physical symptoms of MSS patients in the palliative setting and to detail the palliative treatment used in the last two weeks of life. Design: Retrospective study using the electronic patient records from a single institution. Setting/Subjects: A retrospective study was carried out in a sample of 46 consecutive MSS patients with locally advanced/metastatic disease, who were hospitalized and died in our department. The median age of these patients was 56 years at death. Measurements: Symptom burden and medical intervention during the last two weeks of life were collected. Results: The most frequent physical symptoms were pain and dyspnea in 93% and 78% of patients, respectively, while only 17% of patients suffered from nausea. A total of 98% of patients required opioids, and most patients were treated with morphine through either subcutaneous or intravenous continuous injection. Nonsteroidal anti-inflammatory drugs and acetaminophen were administered to 79% of patients. Corticosteroids were administered for the relief of dyspnea to 83% of patients. Of the patients, 46% received palliative chemotherapy within the last two weeks of life, and the oral treatment was continued until a median of 5.6 days before death. In addition, 39% of patients received a sedative treatment during the last two weeks of life for uncontrolled refractory symptoms. Conclusions: The symptom burden experienced by advanced MSS patients is profound at the end of life for all palliative approaches. Therefore, palliative medicine is an important and even crucial component of the continuum of care, allowing for aggressive symptom management with a variety of medical interventions, including palliative sedation.

Study of an Oxygen Supply and Oxygen Saturation Monitoring System for Radiation Therapy Associated with the Active Breathing Coordinator

In this study, we designed an oxygen supply and oxygen saturation monitoring (OSOSM) system. This OSOSM system can provide a continuous supply of oxygen and monitor the peripheral capillary oxygen saturation (SpO2) of patients who accept radiotherapy and use an active breathing coordinator (ABC). A clinical test with 27 volunteers was conducted. The volunteers were divided into two groups based on the tendency of SpO2 decline in breath-holding without the OSOSM system: group A (12 cases) showed a decline in SpO2 of less than 2%, whereas the decline in SpO2 in group B (15 cases) was greater than 2% and reached up to 6% in some cases. The SpO2 of most volunteers declined during rest. The breath-holding time of group A without the OSOSM system was significantly longer than that of group B (p < 0.05) and was extended with the OSOSM system by 26.6% and 27.85% in groups A and B, respectively. The SpO2 recovery time was reduced by 36.1%, and the total rest time was reduced by 27.6% for all volunteers using the OSOSM system. In summary, SpO2 declines during breath-holding and rest time cannot be ignored while applying an ABC. This OSOSM system offers a simple and effective way to monitor SpO2 variation and overcome SpO2 decline, thereby lengthening breath-holding time and shortening rest time.

Range of Effective Corticosteroid Doses for Alleviating Dyspnea in Terminal Cancer Patients: A Retrospective Review

This study aimed to determine the range of mean cumulative corticosteroid doses that could effectively palliate dyspnea in opioid-treated patients with terminal cancer and to investigate the demographic or biochemical factors predictive of corticosteroid responsiveness. To this end, responders and nonresponders were compared with regard to corticosteroid dose and whether they had initiated opioid use before or concomitantly with corticosteroid use. A logistic regression analysis was conducted to assess the impacts of demographic and biochemical factors on corticosteroid effectiveness. The final sample comprised 20 patients who satisfied the selection criteria. The responders accounted for 70% of the total sample (n = 14) and experienced the strongest effect with regard to dyspnea palliation at a mean cumulative dose equivalent to 64.4 mg prednisolone. However, no factors predictive of response were identified. In summary, this retrospective study identified effective corticosteroid doses for dyspnea alleviation in terminal cancer patients. Although our study sample was limited in size, the results support further prospective research.

Integrated Palliative Care and Oncologic Care in Non-Small-Cell Lung Cancer

OPINION STATEMENT

Palliative care integrated into standard medical oncologic care will transform the way we approach and practice oncologic care. Integration of appropriate components of palliative care into oncologic treatment using a pathway-based approach will be described in this review. Care pathways build on disease status (early, locally advanced, advanced) as well as patient and family needs. This allows for an individualized approach to care and is the best means for proactive screening, assessment, and intervention, to ensure that all palliative care needs are met throughout the continuum of care. Components of palliative care that will be discussed include assessment of physical symptoms, psychosocial distress, and spiritual distress. Specific components of these should be integrated based on disease trajectory, as well as clinical assessment. Palliative care should also include family and caregiver education, training, and support, from diagnosis through survivorship and end of life. Effective integration of palliative care interventions have the potential to impact quality of life and longevity for patients, as well as improve caregiver outcomes.

Pulmonary Rehabilitation and Palliative Care for the Lung Cancer Patient

Pulmonary rehabilitation, as a quality of life intervention, has a role to play in palliative care for lung cancer patients. Combining the art and skills of clinical care, physiological, and behavioral tools, pulmonary rehabilitation can serve to rebuild the functional capacity of patients limited by breathlessness and deconditioning. Exercise programs are the primary tool used to restore and rebuild the patient's endurance by challenging the entire pathway of oxygen transport and improving gas exchange. Other tools of pulmonary rehabilitation include breathing retraining, self-management skills, airway clearance techniques, bronchodilitation, smoking cessation and oxygen therapy. Pulmonary rehabilitation is now becoming a part of supportive care for patients undergoing chemotherapy and radiation therapy. The ability to be more active without suffering the consequences of dyspnea on exertion boosts the patient's self-efficacy and allows for an improved quality of life, so that lung cancer patients can participate in their family lives during this therapeutic challenge.