Dying and Death in Oncology Lawrence Berk Editor 123 Dying and Death in Oncology Lawrence Berk Editor Dying and Death in Oncology Editor Lawrence Berk Morsani School of Medicine Tampa General Cancer Center University of South Florida Tampa , FL USA ISBN 978-3-319-41859-9 ISBN 978-3-319-41861-2 (eBook) DOI 10.1007/978-3-319-41861-2 Library of Congress Control Number: 2016954970 © Springer International Publishing Switzerland 2017 T his work is subject to copyright. All rights are reserved by the Publisher, whether the whole or part of the material is concerned, specifi cally the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfi lms or in any other physical way, and transmission or information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed. 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Printed on acid-free paper This Springer imprint is published by Springer Nature The registered company is Springer International Publishing AG Switzerland The registered company address is: Gewerbestrasse 11, 6330 Cham, Switzerland Contents 1 Art of Dying . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Lawrence Berk 2 Dying: What Happens in the Cells and Tissues . . . . . . . . . . . . . . . . . . 7 Lawrence Berk 3 Dying: What Happens to the Body After Death . . . . . . . . . . . . . . . . . 23 Vernard Adams 4 Quality of Life at the End of Life . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 Lodovico Balducci and Miriam Innocenti 5 Legal Aspects of Oncology Care for Dying Patients . . . . . . . . . . . . . . 47 Marshall B. Kapp 6 Spiritual Care: An Essential Aspect of Cancer Care . . . . . . . . . . . . . . 67 Kenneth J. Doka 7 Religious Views of the Afterlife . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 Christopher M. Moreman 8 A Historical Perspective of Death in the Western World . . . . . . . . . . 99 David San Filippo 9 Economic Aspects of Death and Dying in Oncology . . . . . . . . . . . . . . 115 Vlad Dolgopolov 10 Oncologists and Death . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 137 Lawrence Berk 11 Pediatric Cancer and End-of-Life . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 147 Kathleen G . Davis 12 Symptom Management of the Dying Oncology Patient . . . . . . . . . . . 171 Lawrence Berk v 1 Art of Dying Lawrence Berk There’ll come a time when all of us must leave here Then nothing sister Mary can do Will keep me here with you As nothing in this life that I’ve been trying Could equal or surpass the art of dying Do you believe me? There’ll come a time when all your hopes are fading When things that seemed so very plain Become an awful pain Searching for the truth among the lying And answered when you’ve learned the art of dying But you’re still with me But if you want it Then you must fi nd it But when you have it There’ll be no need for it There’ll come a time when most of us return here Brought back by our desire to be A perfect entity Living through a million years of crying Until you’ve realized the Art of Dying Do you believe me? Written by George Harrison and published by Harrisongs Ltd 1970 Published with permission, Hal Leonard Corporation 2016 L. Berk , MD, PhD Morsani School of Medicine , University of South Florida , Tampa , FL , USA e-mail: [email protected] © Springer International Publishing Switzerland 2017 1 L. Berk (ed.), Dying and Death in Oncology, DOI 10.1007/978-3-319-41861-2_1 2 L. Berk E veryone diagnosed with cancer will die. But then, everyone without cancer will also die. It is an inescapable fact that we all will die. What is the risk of dying at any moment in time? The fi rst statistical analysis of the rate of risk of dying was pub- lished by the British actuary Benjamin Gompertz in 1825 (Gompertz 1 825 ). He developed the formula now called the Gompertzian function in which the rate of risk of death increases exponentially as we age. This holds for almost all animals, from fruit fl ies to humans. For humans, the rate of dying doubles every 8 years. This formula is accurate for most of the human life span, but it underestimates the rate of death at very early ages and overestimates it among the very old. The current sur- vival and death probabilities in the United States, based on US census data, was graphed by Brian Skinner on his blog Gravity and Levity (Skinner 2 009 ). As the fi gures show, the risk of dying starts to rapidly rise at about age 60 (Fig. 1 .1 ). Skinner’s data from 2005 had a doubling of the death rate every 8 years, just as did Gompertz’ in 1825. That is not to say life expectancy has not changed. Figure 1.2 shows the life expectancy in Britain over the last 450 years, and there has been a marked increase in life expectancy, from 41 years in 1840 to 79 years in 2010. However, the rate of change of the curve has held constant. What is also clear from the data in Fig. 1 .2 is that the maximum life span has changed very little over 160 years, despite the 0.6 1.0 0.5 0.8 bability of death 000...432 vival probabilty 00..64 pro 0.1 sur 0.2 0.0 0.0 0 20 40 60 80 100 0 20 40 60 80 100 age age (based on death rates in 2005) (based on death rates in 2005) Fig. 1.1 Death and survival in the United States in 2005 (Skinner 2009) 110 110 110 120 105 105 105 105 105 105 105 100 100 100 100 100 100 100 100 70.1671.5372.7374.76 76.8 79.16 80 58.6962.0164.35 ears 60 40.31 41.1 41.4742.81 45.4 46.0549.9549.96 Y 40 20 0 1840 1850 1860 1870 1880 1890 1900 1910 1920 1930 1940 1950 1960 1970 1980 1990 2000 Decade MLSP ELSP Fig. 1.2 L ife expectancy and maximum life span in Britain 1840–2010 (Data are from the human mortality database ( h ttp://www.mortality.org/ ) 1 Art of Dying 3 dramatic improvement in expected life span. The maximal life span was taken to be the age when less than three standard deviations of the population were alive, that is, less than 0.27 % of the population born in the reference period was still alive. G ompertz’ equation is from line fi tting the data and is not explanatory. Why is man designed to die? Why has not natural selection directed us to immortality? Attempts have been made to explain the underlying mechanisms of aging and, ulti- mately, death. There are three types of explanations. One is an overall theory about the inevitability of aging without specifi cs as to causes. An example is the utiliza- tion of Information Theory and the Second Law of Thermodynamics. The Second Law of Thermodynamics states that entropy (i.e., the randomness of a system) is always increasing (Riggs 1 993) . As described by Riggs, the entropy that is increas- ing in the cell and leading to death is an increase in informational entropy of the genome. The informational order in the genome is due to genomic redundancy (the genome has a lot of redundancy, and therefore it has low informational entropy). As people, and more specifi cally the cells of people, age, there is a rate of error during cell division which causes increased randomness of information and increased entropy, ultimately leading to death. The same approach, but on a more direct causal level, was developed by Bolt and Bergman under the somewhat heavy-handed acro- nym BOLT (Burn Out Lifespan and Thermosensitivity) (Bolt and Bergman 2 015 ). In their approach, they utilize a systems biology model centered on the sensitivity of proteins to slight variations in temperature, and the resultant loss of redundancy of important proteins leads to aging effects. “To review, BOLT theory suggests that minor fl uctuations in thermal energy are the antagonizing agents of age-related changes that result in functional decline. In network terms, we can say that heat alters the properties of nodes (biomolecules) or hubs (highly connected biomole- cules) such that the edges (the nature of interactions) between them are modifi ed and topological changes to network architecture allow new properties to emerge.” Further, “We can think of a phenotype as the path taken by a ball rolling down that {epigenetic] landscape. Just as in energetics, the ball will follow negative gradients: often moving through narrow canals formed by closely related by relatively unfa- vorable options. To alter the scaffold and landscape is to alter the route a ball will take and thus an individual’s phenotype. The BOLT theory suggests that thermal energy warps the scaffold to elicit different phenotypic outputs” (Bolt and Bergman 2015) . This strongly suggests the entropic/heat model of the Second Law of Thermodynamics, and thus evokes the Informational Entropy theory of Riggs. A nother explanatory approach to the cause of aging that has had long-term popu- larity and a reasonable amount of supporting experimental data is that aging is a function of free radical formation within cells (Perez-Campo et al. 1 998 ). In par- ticular, the formation of free radicals in the mitochondria is at the heart of aging. Early studies suggested that the level of antioxidants correlated with maximal life span. Further studies found that maximal life span correlated better with mitochon- drial fee radical formation rate, suggesting that the immediate damage was more important than the ability to detoxify the free radicals (Perez-Campo et al. 1998 ). There are many other models of aging, but no defi nitive answer as to the underlying process (DiLoreto and Murphy 2 015 ). 4 L. Berk A ging and cancer are mechanistically related. Many of the processes of aging (senescence) are the same processes that lead to the development of cancer (Finkel et al. 2 007 ; Loaiza and Demaria 2 016 ; Serrano and Blasco 2 007 ). As discussed in the chapter on Programmed Cell Death, cells normally stop growing, and ulti- mately die. Those cells that lose the ability to die become tumor cells. The com- mon term used in the laboratory for cells that continue to grow is “immortal.” Thus, normal cells, such as fetal fi broblasts, may grow in cell culture for a time, but ultimately, after about 50 divisions, they die. This was fi rst noted by Hayfl ick and Moorhead in 1961 (Hayfl ick and Moorhead 1 961) . The fi rst immortal cell line was developed by George and Martha Gey from the cervical cancer of Henrietta Lacks, the HeLa cells (Scherer et al. 1 953 ). Although Henrietta Lack’s cancer cells are immortal, she unfortunately died 8 months after her diagnosis (Finkel et al. 2 007 ). The difference between the eternal growth patterns of cancer cell lines and limited growth of normal cell lines suggests that cell senescence can lead to either of two endpoints: the planned outcome of cell death or the more catastrophic outcome of cancer. If death is universal, why does it evoke such fear? Some level of death anxiety is part of the human condition. It is doubtful that any other animal has suffi cient self- awareness to be able to imagine its own death. In Ancient Greek mythology, it was stated that one of the greatest gifts of Prometheus to man was that he took away the foreknowledge of the time of each person’s death. As Aeschylus wrote in the fi fth century BCE: “Chorus: Did you perhaps transgress even somewhat beyond this offence? Prometheus: Yes, I caused mortals to cease foreseeing their doom (m oros ). Chorus: Of what sort was the cure that you found for this affl iction? Prometheus: I caused blind hopes (e lpides ) to dwell within their breasts Chorus: A great benefi t was this you gave to mortals.” (Smyth 1926 ) Freud stated that people do not fear death because they have not and cannot experience death. Rather, the fear of death is a representation of another uncon- scious fear, such as abandonment (Drobot 2 015 ). However, the fear of death (than- tophobia) is now often considered a psychological driving force. The most utilized of the current theories on the psychological response to death anxiety is terror man- agement theory (TMT). In TMT, an individual faced directly or indirectly with death (i.e., the death of themselves or others) aim for cultural worldview validation by showing that their core beliefs are correct and culturally accepted and enhanced self-esteem by showing others that they represent these worldviews well. The iden- tifi cation with the culture gives them a feeling that they will have continuity after death through this culture. The central premise of this theory is that people have developed two defense mechanisms, namely cultural worldview validation and self-esteem enhancement, in an effort to avoid the terror associated with death. The former defense consists of symbolic social construc- tions that provide a sense of meaning, order, and permanence. High self-esteem is achieved when an individual believes that he or she meets culturally prescribed standards of value. (Mosher and Danoff-Berg 2007 ) 1 Art of Dying 5 D eath anxiety can present from a personal risk of death or as a reaction to another person’s risk of dying or dying. Thus, TMT predicts that interacting with patients with cancer should cause a negative emotional response. A study by Mosher and Danoff-Berg did not support this conclusion (Mosher and Danoff-Berg 2 007 ). In this trial, college students were presented different vignettes of a man or a woman with cancer, with variation of the type of cancer, and if the person smoked. Only females with high death anxiety showed the expected increased negative response to various vignettes, suggesting that TMT does not predict response to cancer well. W hat about death anxiety in patients with advanced cancer? Although all humans know they are mortal, the diagnosis of death strips away much of the temporal dis- tance normally associated with death. Neel and colleagues found that about one- third of patients with advanced cancer had signifi cant death anxiety, as measured on the Death and Dying Distress Scale. They found that death anxiety had a negative correlation with self-esteem (i.e., low self-esteem was associated with higher death anxiety) and positive correlation with age, increased symptom burden, and having younger children (Neel et al. 2 015 ). Do cancer survivors have increased death anxiety? Is there increased social and familial bonding, as predicted by Terror Management Theory? In looking at this, Little and colleagues defi ne three terms (Little and Sayers 2 004 ): (cid:129) Mortality salience: knowing that all people die, but an impersonal knowledge (cid:129) Death salience: knowing that I am eventually going to die (cid:129) Dying salience: knowing that I am actively dying The diagnosis of cancer increases mortality salience. It is common for families to unite to ”fi ght” the cancer. In the modern era, they scour the Internet for hidden cures and bond online with others who have battled cancer. Often, the oncologist, who is not a fellow sufferer, is seen as less invested in their cure than the family or their Internet colleagues. During treatment, they are part of a community of cancer patients, meeting in waiting rooms and chemotherapy infusion centers. But, then the treatment stops, and there are two categories of cancer patients: those that may be cured and those that are not. Those that are cured may still face death salience due to their experience. Those that are not cured now face dying salience. Acceptance of the eventuality of death has to come to all three partners in the disease: the patient, the family, and the medical community. Patients may accept their imminent death, that is, have dying salience, but defer to their fami- lies who reject dying and demand that the patient seek further therapy. In a recent survey of families after the patient’s death, they stated that the goal of the patient and family even at the end of life was to prolong survival in 30 % of patients and to provide comfort in 70 % of patients (Wright et al. 2 016 ). The physician may fi nd it easier to avoid the inevitability of the patient’s death by offering ineffective treatments and false hope, rather than directly address the issue of death. Thirteen percent of patients in the United States receive chemotherapy within the last 30 days of their life and 33 % have chemotherapy within the last 180 days of their life. Forty percent of patients in the United States have an intensive care unit