The importance of quality management systems in nuclear medicine departments.

Quality management systems (QMS) in nuclear medicine is an essential component of the Quality program and is instrumental in the safe delivery of a high standard clinical service. The IAEA QUANUM program is a nuclear medicine specific audit program that can be used to assess the standards of a nuclear medicine department and its service delivery. Regular internal and external audits are encouraged as part of the QMS.

Fatores associados a anormalidades na cintilografia de perfusão miocárdica de pacientes diabéticos / Factors associated with abnormalities on myocardial perfusion scintigraphy in diabetic patients

O diabetes melito é o maior fator de risco para doença arterial coronariana. Além da longa duração de diabetes, outros fatores, como presença de doença arterial periférica e tabagismo são fortes preditores para anormalidades na cintilografia de perfusão do miocárdio. O objetivo deste estudo foi avaliar o impacto dos fatores de risco de pacientes diabéticos nos resultados da cintilografia de perfusão do miocárdio e comparar com os resultados de pacientes não diabéticos em uma clínica de medicina nuclear. Foi realizado um estudo transversal retrospectivo por meio da análise de prontuários de pacientes que realizaram cintilografia miocárdica no período de 2010 a 2019. Foram avaliados 34.736 prontuários. Analisando a fase de estresse da cintilografia de perfusão do miocárdio, os portadores de diabetes melito precisaram receber estímulo farmacológico duas vezes mais que os não diabéticos para sua realização. Também foram avaliados fatores que tivessem impacto negativo no resultado da cintilografia de perfusão do miocárdio, e foi visto que o diabetes melito (33,6%), a insulinoterapia (18,1%), a hipertensão arterial sistêmica (69,9%), a dislipidemia (53%), o sedentarismo (83,1%), o uso de estresse farmacológico (50,6%), a dor torácica típica (8,5%) e a angina limitante durante o teste (1,7%) estiveram associados significativamente (p<0,001) a anormalidades neste exame. (AU)

Diabetes mellitus (DM) is the greatest risk factor for coronary artery disease. In addition to a long duration of diabetes, the presence of peripheral arterial disease and smoking are strong predictors of abnormalities on myocardial perfusion scintigraphy (MPS). This study aimed to assess the impact of risk factors in diabetic patients on MPS results and compare them with those of non-diabetic patients in a nuclear medicine clinic. A retrospective cross-sectional study was performed through the analysis of the medical records of patients who underwent MPS in 2010­2019. A total of 34,736 medical records were evaluated. Analyzing the stress phase of MPS, DM patients required two-fold more pharmacological stimulation than non-diabetic patients for MPS. Factors that negatively impact the MPS results were also evaluated, and DM (33.6%), insulin therapy (18.1%), systemic arterial hypertension (69.9%), dyslipidemia (53%), sedentary lifestyle (83.1%), use of pharmacological stress (50.6%), typical chest pain (8.5%), and limiting angina during the test (1.7%) were significantly associated (p < 0.001) with test abnormalities. (AU)

[Impact of COVID-19 on Nuclear Medicine Procedures in Germany 2020 - Results of a National Survey]. / Auswirkungen von COVID-19 auf nuklearmedizinische Untersuchungen und Therapien im Verlauf von 2020 ­ Ergebnisse einer nationalen Umfrage.

INTRODUCTION: The COVID-19 pandemic imposed an unimaginable challenge to the healthcare systems worldwide. This online survey captured the impact of the COVID-19 pandemic on nuclear medicine services in Germany comparing 2020 to 2019. MATERIALS AND METHODS: A web-based questionnaire was developed to record the 2020 numbers of nuclear medicine procedures and, in particular, the change compared with 2019. The changes in nuclear medicine diagnostics and therapy were queried, as well as the extent to which "Coronavirus SARS-CoV-2" recommendations provided by the DGN were implemented. RESULTS: 91 complete responses were recorded and evaluated. This corresponds to about 20 % of all German nuclear medicine facilities. Nuclear medicine diagnostic tests showed a decrease in scintigraphies for thyroid (15.9 %), bone (8.8 %), lung (7.6 %), sentinel lymph nodes (5.5 %), and myocardium (1.4 %) with small increases in PET/CT examinations (1.2 %) compared with 2019. Among nuclear medicine therapies, reductions were highest for benign indications (benign thyroid 13.3 %, RSO 7.7 %), while changes from 2019 were less pronounced for malignant indications (PRRT: + 2.2 %, PSMA: + 7.4 %, SIRT: -5.9 %, and RJT for thyroid carcinoma -2.4 %). The DGN recommendations for action were fully or partially applied in 90 %. CONCLUSIONS: The initial significant reduction in nuclear medicine procedures in the first three weeks of the COVID-19 pandemic did not continue, but there was no compensation of the previously not performed services. The decrease in diagnostics and therapy procedures of benign diseases was particularly severe.

COVID-19 en la biopsia selectiva de ganglio centinela: el invitado inesperado / COVID-19 on selective sentinel node biopsy: the unexpected guest

OBJETIVO: Describir las medidas adoptadas dentro del plan de contingencia del COVID-19 respecto a la biopsia selectiva de ganglio centinela (BSGC) y analizar su impacto sobre la actividad asistencial. METODOLOGÍA: Estudio cualitativo, descriptivo y retrospectivo de BSGC realizadas durante el período del 14/03 al 11/05 de 2020. Análisis de las medidas tomadas para minimizar las probabilidades de contagio y resultados de PCR de pacientes y personal. Comparativa de casos con los realizados en el mismo período de 2019. Actividad diaria de linfogammagrafía y de cirugía radioguiada (CRG) por indicación médica. Cálculo numérico y porcentual de CRG por hospital y recursos humanos diarios de medicina nuclear requeridos. RESULTADOS: Se realizaron 42 intervenciones con BSGC, un 31,1% menos que en 2019. La indicación médica de cáncer de mama experimentó el mayor descenso de actividad (n=18, 41,9%). Del total de CRG, Hospital Clínic realizó el 45,2%, Hospital Maternitat el 31,0%, Hospital Plató el 16,7% y Hospital Sant Joan de Déu el 7,1% restante. En relación con los recursos humanos, la planificación inicial se cumplió en un 77% de los días. El total de los controles PCR a pacientes (n=42) y personal de CRG (n=9) dio resultado negativo. CONCLUSIONES: El COVID-19 influyó negativamente en la actividad asistencial de la BSGC del Hospital Clínic, pero fue compensado por una planificación acertada, basada en el análisis previo de los procesos del procedimiento, que permitió adaptar los recursos de material y personal a las circunstancias cambiantes, otorgándole una flexibilidad que posibilitó el cumplimiento de la programación establecida

OBJECTIVE: To describe the measures taken within the COVID-19 contingency plan concerning sentinel lymph node biopsy (SNB) procedures and to assess their impact on healthcare activity. METHODOLOGY: Qualitative, descriptive and retrospective study of SNB procedures conducted during the lockdown period of COVID-19 (14/03 to 11/05 2020). Analysis of measures taken to minimise the chances of contagion and PCR outcomes of patients and staff. Comparison with SNB procedures conducted in the same time interval in 2019. Daily activity of lymphoscintigraphy and radioguided surgery (RGS) by medical indication. Numerical and percentage calculation of RGS by hospital and daily requirements for human resources in nuclear medicine. RESULTS: Forty-two SNB were performed, representing 31.1% less than those conducted in the same period in 2019. The medical indication of breast cancer showed the greatest activity decrease (n=18, 41.9%). RGS was performed in 45.2% of patients in Hospital Clínic, 31.0% in Maternitat, 16.7% in Plató and 7.1% in Sant Joan de Déu Hospital. Concerning the human resources required, the initial planning was accomplished in 77% of the days (24/31). All the PCR samples from patients (n=42) and RGS staff (n=9) were negative for COVID-19. CONCLUSIONS: COVID-19 negatively influenced the healthcare activity of SNB in Hospital Clínic, but was compensated by adequate planning, based on prior analysis of the procedure's processes, which allowed adaptation of material and personnel resources to the changing circumstances. This allowed flexibility, which in turn enabled compliance with the established schedule

How COVID-19 pandemic affected cancer progression: Three different scenarios evidenced by PET imaging.

COVID-19 pandemic is having a strong impact on healthcare providers around the world, by refocusing and reducing non-essential medical activities. Nuclear medicine departments among others, have been reorganizing and reprioritizing diagnostic and theragnostic procedures. This reorganizing had a negative impact on the supply of positron emission tomography (PET) services to oncologic patients, whose health was affected. We herein present the PET findings in three different cancer scenarios in which disease course was dramatically affected by the COVID-19 outbreak.

The consequences of COVID-19 pandemic in the routine of Nuclear Medicine Departments.

The outbreak and spreading of the COVID-19 pandemic have affected billions of people around the world, severely disrupting many aspects of their lives. Although not at the frontline of the pandemic response, Nuclear Medicine departments have to adopt their clinical routine to the new environment. A series of protective measures, including among others spatial arrangements to promote social distancing, meticulous hand hygiene and use of personal protective equipment, workload reduction, patient screening at admission and examination protocol adjustments, have to be adopted in order to minimize the risk of spreading the infection and ensure the safety of both their patients and staff. As the pandemic seems to slowly recede, the valuable experience gained should help everyone be much better prepared for a possible new outbreak.

Nuclear Cardiology practice in COVID-19 era.

The Coronavirus Disease 2019 (COVID-19) pandemic is the biggest shock in decades to the well developed healthcare system and resources worldwide. Although there was a wide variation in the level of preparedness, the transition was tough even for the most renowned healthcare systems. Increasing the capacity and adapting healthcare for the needs of COVID-19 patients is described by the WHO as a fundamental outbreak response measure. However, while the system is preoccupied with a pandemic infection, patients suffering from other illnesses are in high risk to get infected, also being compromised by the imperative shift in medical resources and significant restrictions on routine medical care. For example patients with cardiovascular disease and others referred for nuclear cardiology procedures are frequently greater than 60 years of age and have other comorbidities (e.g. hypertension, diabetes, chronic lung disease, and chronic renal disease) that place them at a high-risk for adverse outcomes with COVID-19, providing unique challenges for their management in healthcare facilities, as well as for the care of health care personnel. Numerous medical specialty societies and governmental agencies issued guidelines aiming at the specification of preventive measures and amendments in everyday clinical practice during the escalation and peak of the pandemic. In accordance, the American Society of Nuclear Cardiology (ASNC) and the Society of Nuclear Medicine and Molecular Imaging (SNMMI), issued a common statement in late March 2020, which was provided as an initial response to this pandemic, offering specific recommendations for adapting nuclear cardiology practices at each step in a patient's journey through the lab-for inpatients, outpatients and emergency department patients. One of the main recommendations was cancelling or delaying of all non-urgent nuclear cardiology studies. As COVID-19 follows a different time course in different geographic regions and lockdowns begin to lift in many countries, the issue of re-establishment of non-emergent care, in nuclear cardiology laboratories amongst others, has to be addressed in a watchful and balanced way, keeping in mind that the COVID-19 crisis is far from over. Furthermore measuring what is happening in the current crisis is essential to ensuring preparedness for a possible next wave of the pandemic. Recently the ASNC, SNMMI, the International Atomic Energy Agency (IAEA) and the Infectious Disease Society of America (IDSA), issued an information statement which describes a careful approach to reestablishment of non-emergent care in nuclear cardiology laboratories reflecting diverse settings from the United States and worldwide. In the same spirit it is also the reintroduction guidance issued by North American Cardiovascular Societies. In this paper we provide a synopsis of the basic steps of adapting nuclear cardiology practice in the era of COVID-19 in order to balance between the risk of viral transmission while also providing crucial cardiovascular assessments for our patients.

COVID-19 pandemic: Implications for radionuclide therapy in Nuclear Medicine departments.

The global COVID-19 health and economic crisis has forced people to adopt challenging rules of social distancing and self-isolation. Health care staff has been advised to change working routines to keep themselves and their patients safe. Radionuclide therapy has had an increasing role in clinical practice. Most therapeutic radionuclide procedures have applications in oncology. Cancer patients are an especially fragile and vulnerable population with higher risk due to co morbidities and immunosuppression. COVID-19 is another risk that must be considered in treatment planning. Therapeutic, prophylactic, and supportive interventions may require changes for these patients. The most common radionuclide therapies involve patients with differentiated thyroid cancer (DTC) who need radioiodine therapy (RAI), patients with neuroendocrine tumours (NETs) who need peptide receptor radionuclide therapy (PRRT), patients with hepatocellular carcinoma (HCC) who need therapy with radiolabelled microspheres, and patients with prostate cancer and bone metastasis who need radionuclide palliative therapy. If infected, cancer patients could be at a higher risk for serious COVID-19 disease. Treatment decisions for thyroid cancer and NETs are challenging in this environment. Any decision to postpone therapy must be carefully considered, balancing risks and benefits. A risk of worsened prognosis due to delayed or suboptimal cancer treatment must be weighed against the risk of severe COVID-19 illness.

Nuclear Medicine and Oncology in the COVID-19 pandemic era.

The coronavirus disease 2019 (COVID-19) global pandemic poses a significant challenge to the national health systems. Not only China, the first country that experienced the health crisis since last December, but the rest of the world, is facing an unprecedented global health crisis, the most serious crisis in a century, with social and economic impact. However, the most important impact of the new pandemic is the human impact. Till 4th of June 2020, coronavirus SARS-CoV-2, causing COVID-19 disease, has infected more than 65000.000 people and has been responsible for more than 386000 deaths globally. The first priority of public health authorities is to contain and mitigate the spread and infection rate of the coronavirus SARS-CoV-2, distributing the number of infections over time and, if possible, reduce the incidence of the disease (COVID-19) it causes. A critical task for health systems confronted with the spread of the coronavirus is to protect the health of all citizens, so this requires that both diagnosis/testing and appropriate care should be readily available, affordable, and provided in a safe environment. The health care systems of many developed countries failed to demonstrate a satisfactory response to the increased demand for acute care hospital beds, ventilators, emergency services, diagnostics tests, support equipment for their COVID-19 patients, availability of essential medicines, protective equipment for their staff etc. Nuclear Medicine (NM) departments and their staff, in spite of the fact that not being in the front line of the pandemic response, have experienced a dramatic alteration in their daily clinical activity, trying to adapt their clinical routine to the new environment. There are several issued guidance from national and international organizations, trying to help to cope with suspected or verified COVID-19 patients. Patients with cancer are thought to be more susceptible and have higher morbidity and mortality rates from COVID-19 than the general population. In the current article, our aim is to present measures, guidance and thoughts that should be considered for the cancer patients.

Challenges and priorities in skeletal, gastrointestinal, hepatobiliary, genitourinary and lung scintigraphy during the COVID-19 pandemic.

On December 29, 2019, a hospital in the City of Wuhan, Hubei Province, in Central China, admitted four individuals with pneumonia. The hospital reported this occurrence to the local center for disease control (CDC), which lead Wuhan CDC staff to initiate a field investigation with a retrospective search for pneumonia patients. On December 31, 2019, the World Health Organization (WHO) was alerted by the Chinese authorities for several cases of pneumonia of unknown origin in the City of Wuhan. On January 7, 2020, a novel virus was identified as the causative agent, belonging to the Coronaviridae family (Severe Acute Respiratory Syndrome Coronavirus 2, SARS-CoV-2). Within the same month, the virus spread to other provinces of China, as well as a number of neighbouring countries. On February 11, 2020, the WHO announced that the SARS-CoV-2 - caused infection would be called coronavirus disease 2019 (COVID-19). On February 15, 2020, the first death due to COVID-19 in Europe was reported; a Chinese tourist who died in France. The first COVID-19 case was diagnosed in Greece on February 26th. The WHO declared COVID-19 a pandemic on 11 March 2020. On March 12th, movie theaters, gyms and courtrooms were closed in Greece and on March 13th, with 190 confirmed cases and 1 death, malls, cafés, restaurants, bars, beauty parlors, museums and archaeological sites were also closed. So far, COVID-19 pandemic has affected the way people live and work globally, and has resulted in extreme strain on the healthcare systems worldwide. Most of the nuclear medicine studies are performed on an out-patient basis. Therefore, without effective implementation of the required preventive measures, there is a significant risk for viral transmission when visiting nuclear medicine departments, particularly in periods of high community spread.

Nuclear thyroidology in pandemic times: The paradigm shift of COVID-19.

Since its outbreak in Wuhan, China the SARS-CoV-2 has become a public health emergency of international concern, impacting all areas of daily life, including medical care. Although not in the front line nuclear medicine practice should adjust their standard operating procedures. The adaptations and the flexibility that nuclear thyroidology, among other fields of nuclear medicine, should show during the pandemic, must focus not only in minimizing the risk of infection to staff, patients, and family members, but also in controlling the transmission of the virus while continuing to provide health care services which do not jeopardize patients' prognosis and quality of life. Favorable prognosis and indolent symptoms of most cases of thyroid diseases, allows postponements and rescheduling as well as alternative procedures, provided that they are cautiously considered for each case individually. The objective of the current paper is to provide guidance on how diagnostic and therapeutic management of patients with thyroid diseases can be safely and effectively adjusted during pandemic, in nuclear medicine settings.

Non-Oncological PET/CT imaging during SARS-CoV-2 pandemic.

In December 2019 a new ß-CoV, Severe Acute Respiratory Coronavirus- 2 (SARS-CoV-2), has been identified in Wuhan Hubei Province, China. Within a few months it spread rapidly to more than 114 countries and the disease, Coronavirus disease 2019 (COVID-19), was declared pandemic on 11th February 2020 by the World Health Organization (WHO). Until 20 June 2020 8:09 am, 8,465,085 cases of COVID-19 were confirmed globally, with 454,258 deaths. The first incidence in Greece was documented on 26 February 2020 in Thessaloniki and up to 20 June 2020 8:09 am, 3,227 confirmed cases of COVID-19 were reported, with 188 deaths. At the time of writing USA and Brazil, are the countries with the highest disease burden. Governments have imposed a variety of suggestions and restrictions in order to control the spread of the virus, focusing mainly on social distancing, self-isolation, personal hygiene and personal protective equipment (PPE). Greece was one of the countries that implemented early drastic measures thus succeeding in controlling the virus transmission; having a profound economical effect though.

Medicina Nuclear en la pandemia por Covid-19 / Nuclear Medicine in the Covid-19 pandemic

No disponible

El especialista en Radiofísica Hospitalaria en el Servicio de Medicina Nuclear / Specialists in Hospital Radiophysics in the Department of Nuclear Medicine

No disponible

Radiotherapy treatment scheduling considering time window preferences.

External-beam radiotherapy treatments are delivered by a linear accelerator (linac) in a series of high-energy radiation sessions over multiple days. With the increase in the incidence of cancer and the use of radiotherapy (RT), the problem of automatically scheduling RT sessions while satisfying patient preferences regarding the time of their appointments becomes increasingly relevant. While most literature focuses on timeliness of treatments, several Dutch RT centers have expressed their need to include patient preferences when scheduling appointments for irradiation sessions. In this study, we propose a mixed-integer linear programming (MILP) model that solves the problem of scheduling and sequencing RT sessions considering time window preferences given by patients. The MILP model alone is able to solve the problem to optimality, scheduling all sessions within the desired window, in reasonable time for small size instances up to 66 patients and 2 linacs per week. For larger centers, we propose a heuristic method that pre-assigns patients to linacs to decompose the problem in subproblems (clusters of linacs) before using the MILP model to solve the subproblems to optimality in a sequential manner. We test our methodology using real-world data from a large Dutch RT center (8 linacs). Results show that, combining the heuristic with the MILP model, the problem can be solved in reasonable computation time with as few as 2.8% of the sessions being scheduled outside the desired time window.

Herramienta basada en código abierto para el cálculo de blindaje en las instalaciones de Medicina Nuclear / Open Source Based Tool for Shielding Calculation in Nuclear Medicine Installations

Uno de los requerimientos indispensables en el diseño de las instalaciones donde se trabaja con radiación ionizante es la determinación del espesor adecuado de las paredes, pisos, techo y puertas de los locales, que garanticen dosis por debajo de las restricciones establecidas por la autoridad regulatoria. El objetivo del presente trabajo es desarrollar una herramienta interactiva, libre y de código abierto para calcular los blindajes requeridos en una instalación de Medicina Nuclear. En el código, desarrollado en Phyton utilizando el entorno interactivo Jupiter Notebook, se incluyó el análisis tanto para Tomografía por Emisión de Fotón Único como para Tomografía por Emisión de Positrones. La herramienta fue implementada para el cálculo de los blindajes de un departamento de Medicina Nuclear del Centro Internacional de Restauración Neurológica (CIREN). Esta herramienta libre y de código abierto facilita los cálculos de blindaje aumentando la velocidad, lo que contribuye a lograr una optimización de la protección radiológica, pero también puede usarse como herramienta pedagógica(AU)

One of the indispensable requirements in the design of the facilities where ionizing radiation is used is the determination of the adequate thickness of the walls, floors, ceiling and doors of the premises, which guarantee doses below the restrictions established by the regulatory authority. The goal of this work is to develop an interactive, free and open source tool to calculate the shields required in a Nuclear Medicine installation. Analysis for both Single Photon Emission Tomography and Positron Emission Tomography was included in the code, developed in Phyton using the interactive Jupiter Notebook environment. The tool was implemented to calculate the shields of a Nuclear Medicine department of the International Center for Neurological Restoration (CIREN). This free and open source tool facilitates shielding calculations by increasing speed, which contributes to the optimization of radiation protection, but can also be used as a pedagogical tool(AU)