PURPOSE: To evaluate potential epidemiologic methods for studying long-term effects of immunosuppression on the risk of mortality and fatal malignancy, and present the methodological details of the Systemic Immunosuppressive Therapy for Eye Diseases (SITE) Cohort Study. METHODS: Advantages and disadvantages of potential study designs for evaluating rare, late-occurring events are reviewed, and the SITE Cohort Study approach is presented. RESULTS: The randomized, controlled trial is the most robust method for evaluating treatment effects, but long study duration, high costs, and ethical concerns when studying toxicity limit its use in this setting. Retrospective cohort studies are potentially more cost-effective and timely, if records exist providing the desired information over sufficient follow-up time in the past. Case-control methods require extremely large sample sizes to evaluate risk associated with rare exposures, and recall bias is problematic when studying mortality. The SITE Cohort Study is a retrospective cohort study. Past use of antimetabolites, T-cell inhibitors, alkylating agents, and other immunosuppressives is ascertained from medical records of approximately 9,250 ocular inflammation patients at five tertiary centers over up to 30 years. Mortality and cause-specific mortality outcomes over approximately 100,000 person-years are ascertained using the National Death Index. Immunosuppressed and non-immunosuppressed groups of patients are compared with each other and general population mortality rates from US vital statistics. Calculated detectable differences for mortality/fatal malignancy with respect to the general population are 22%/49% for antimetabolites, 28%/62% for T-cell inhibitors, and 36%/81% for alkylating agents. CONCLUSIONS: Information from the SITE Cohort Study should clarify whether use of these immunosuppressive drugs for ocular inflammation increases the risk of mortality and fatal cancer. This epidemiologic approach may be useful for evaluating long-term risks of systemic therapies for other ocular diseases.
PURPOSE: To evaluate potential epidemiologic methods for studying long-term effects of immunosuppression on the risk of mortality and fatal malignancy, and present the methodological details of the Systemic Immunosuppressive Therapy for Eye Diseases (SITE) Cohort Study. METHODS: Advantages and disadvantages of potential study designs for evaluating rare, late-occurring events are reviewed, and the SITE Cohort Study approach is presented. RESULTS: The randomized, controlled trial is the most robust method for evaluating treatment effects, but long study duration, high costs, and ethical concerns when studying toxicity limit its use in this setting. Retrospective cohort studies are potentially more cost-effective and timely, if records exist providing the desired information over sufficient follow-up time in the past. Case-control methods require extremely large sample sizes to evaluate risk associated with rare exposures, and recall bias is problematic when studying mortality. The SITE Cohort Study is a retrospective cohort study. Past use of antimetabolites, T-cell inhibitors, alkylating agents, and other immunosuppressives is ascertained from medical records of approximately 9,250 ocular inflammationpatients at five tertiary centers over up to 30 years. Mortality and cause-specific mortality outcomes over approximately 100,000 person-years are ascertained using the National Death Index. Immunosuppressed and non-immunosuppressed groups of patients are compared with each other and general population mortality rates from US vital statistics. Calculated detectable differences for mortality/fatal malignancy with respect to the general population are 22%/49% for antimetabolites, 28%/62% for T-cell inhibitors, and 36%/81% for alkylating agents. CONCLUSIONS: Information from the SITE Cohort Study should clarify whether use of these immunosuppressive drugs for ocular inflammation increases the risk of mortality and fatal cancer. This epidemiologic approach may be useful for evaluating long-term risks of systemic therapies for other ocular diseases.
Authors: Leon D Charkoudian; Gui-shuang Ying; Siddharth S Pujari; Sapna Gangaputra; Jennifer E Thorne; C Stephen Foster; Douglas A Jabs; Grace A Levy-Clarke; Robert B Nussenblatt; James T Rosenbaum; Eric B Suhler; John H Kempen Journal: Ocul Immunol Inflamm Date: 2012-04 Impact factor: 3.070
Authors: Ebenezer Daniel; Maxwell Pistilli; Srishti Kothari; Naira Khachatryan; R Oktay Kaçmaz; Sapna S Gangaputra; H Nida Sen; Eric B Suhler; Jennifer E Thorne; C Stephen Foster; Douglas A Jabs; Robert B Nussenblatt; James T Rosenbaum; Grace A Levy-Clarke; Nirali P Bhatt; John H Kempen Journal: Ophthalmology Date: 2017-04-19 Impact factor: 12.079
Authors: Ali A Zaidi; Gui-Shuang Ying; Ebenezer Daniel; Sapna Gangaputra; James T Rosenbaum; Eric B Suhler; Jennifer E Thorne; C Stephen Foster; Douglas A Jabs; Grace A Levy-Clarke; Robert B Nussenblatt; John H Kempen Journal: Ophthalmology Date: 2009-12-14 Impact factor: 12.079
Authors: Siddharth S Pujari; John H Kempen; Craig W Newcomb; Sapna Gangaputra; Ebenezer Daniel; Eric B Suhler; Jennifer E Thorne; Douglas A Jabs; Grace A Levy-Clarke; Robert B Nussenblatt; James T Rosenbaum; C Stephen Foster Journal: Ophthalmology Date: 2009-12-06 Impact factor: 12.079
Authors: Anthony C Gregory; John H Kempen; Ebenezer Daniel; R Oktay Kaçmaz; C Stephen Foster; Douglas A Jabs; Grace A Levy-Clarke; Robert B Nussenblatt; James T Rosenbaum; Eric B Suhler; Jennifer E Thorne Journal: Ophthalmology Date: 2012-10-11 Impact factor: 12.079
Authors: John H Kempen; Ebenezer Daniel; James P Dunn; C Stephen Foster; Sapna Gangaputra; Asaf Hanish; Kathy J Helzlsouer; Douglas A Jabs; R Oktay Kaçmaz; Grace A Levy-Clarke; Teresa L Liesegang; Craig W Newcomb; Robert B Nussenblatt; Siddharth S Pujari; James T Rosenbaum; Eric B Suhler; Jennifer E Thorne Journal: BMJ Date: 2009-07-03