Layered Procedures in Hypertensive Emergencies Dr Klaus Fiedler
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Layered Procedures in Hypertensive Emergencies Dr. Klaus Fiedler IHAMB, University of Basel, Switzerland 2009 -2013 with conclusions
Trends in Hypertension Hypertensive Emergency Case Decision and Classification Therapy and Cardiovascular Complications Primary Events Secondary Events Comparison of Primary and Secondary Events in this Study Conclusions
Trends in Hypertension Systolic blood pressure in mm. Hg (not age-standardized) In 180 countries Time period 80 – 09 Values from WHO
Blood Pressure Mean: Men Average systolic in mm. Hg (not age-standardized) coefficient of regression (b) p<0. 05 Average systolic values from 1980 to 2009 from WHO
Male Blood Pressures 1980 – 2009 Systolic in mm. Hg
Blood Pressure Mean: Women Average systolic in mm. Hg (not age-standardized) coefficient of regression (b) p<0. 05 Average systolic values from 1980 to 2009 from WHO
Female Blood Pressures 1980 – 2009 Systolic in mm. Hg
Simple Trends in Blood Pressure coefficient of regression female against male Female 1. 43 (CI 1. 36 -1. 52); p=0. 001 Male betas of linear predictions (male and female) based on raw values from WHO (1980 – 2009)
Simple Trends in Blood Pressure • if the development is towards higher values of blood pressure (or negligible in male), female trends are ever so often more rapid • if the development is towards lower values of blood pressure, it is usually more rapid in the female sex female trends are highly significant Þ countries with largest gender gaps are… Top 2% Burkina Faso Mali Nigeria towards higher values Top 2% Czech Republic Spain Estonia Malta towards lower values
Physiology: Male and Female with 3 Parameters Countries Blood Glucose Blood Pressure BMI CI Coefficient Female PCA b = 0. 85 (CI 0. 78 -0. 92) • women’s values are non-uniformely distributed amongst different countries • men’s values are uniformely distributed amongst different countries Coefficient Male
Trends in Hypertension: 2016 Non-linear predictions; Average systolic blood pressure Add to baseline of 2009 (in mm. Hg) Predictions based on 1980 – 2009 Raw Values from WHO
Trends in Hypertension Hypertensive Emergency Case Decision and Classification Therapy and Cardiovascular Complications Primary Events Secondary Events Comparison of Primary and Secondary Events in this Study Conclusions
Hypertensive Emergencies • available patient cohort study from May 2008 in Kanton Basel (BS, BL) and Luzern • inclusion criteria: blood pressure >180 mm. Hg/>110 mm. Hg, age > 20 y • discriminant analysis, logistic regression, categorical regression, multi layer perceptrons • primary care questionnaire … in addition to Age and Gender, data on Blood pressure, Drugs, Emergency therapy, Follow-up therapy, Cardiovascular risk factors were requested to be answered. Further questions referred to Accompanying conditions and the History of cardiovascular complications, Cardiovascular complications within 3 months • 1 year follow-up … Cardiovascular events, Follow-up therapy changes and data on newly described Cardiovascular risk factors were requested to be answered
Hypertension Prevalence in the Elderly Prevalence white: no data Age group (approx. ) 65 -74 Wolf-Maier et al. (2003); Kearney et al. (2005); Pitsavos et al. (2006) ; eurostat. ec. europa. eu (2008); National Health and Nutrition Survey of Japan (2006) and WHO
Test: Hypertensive Emergencies and Case Decision Modelling of the „clinical decision“ path E: Emergency Therapy E -H E+H -E -H H -E H: Hospitalization
Hypertensive Emergencies: Symptoms Classification Emergency Urgency Asymptomatic* abdominal pain ataxia chest pain confusion dizziness/vertigo drops dyspnoea headache incontinence limb weakness nausea pallor palpitations pruritus speech disturbances sweating visual disturbances vomitus abdominal pain altered mental status Angst atactic gait cold intolerance dizziness/vertigo dyspnoea epiphora epistaxis flush gait disturbances headache limb pain nausea neck pain palpitations pruritus restlessness shoulder pain sweating tinnitus tremor tympanic pressure visual disturbances back pain included in the statistics, dizziness yet, do not count as overt epistaxis flush heartburn nausea slightly altered mental status * Does not lead to Emergency or Urgency classification symptoms
Differential Diagnosis Medical conditions cardiac acute pulmonary edema with systolic/diastolic dysfunction malignant hypertension, stroke, aortic dissection neurologic traumatic renal drugs endocrine intracranial / subarachnoid hemorrhage, cerebral embolism / stroke, hypertensive encephalopathy head trauma chronic pyelonephritis, renal parenchymal diseases (glomerulonephritis), renovascular disease monoamine oxidase inhibitor interactions, cocaine overdose metabolic pheochromocytoma (excess catecholamines), aldosteronism, renin-secreting tumors, glucocorticoid excess hypercalcemia pregnant preeclampsia, eclampsia psychogenic hyperventilation, Angst, sympathetic hyper-tonus, panic attack Brennan et al. 2010, Critical Care Study Guide
„Available Patient Cohort“ Study time course 18. 4 months lost to follow-up n=26 164 patients included 8 patients died blood pressure determination 14 months n= 137
Cardiovascular Differential Diagnosis: Reevaluation 8 Cases were selected 6: Other 5: Congestive Heart Failure 4: TIA 3: Cerebrovascular Insult 2: Occlusive PAD 1: Coronary Artery Disease 0: None No Yes Hypertension
Hospitalization of Patients Emergency hospitalization patient class diagnosis 1 2 3 4 5 6 7 8 9 10 Emergency Emergency Urgency acute myocardial infarction acute coronary syndrome suspected cerebrovascular insult hypertensive encephalopathy hyponatremia, hypertensive encephalopathy mesenteric ischemia, bowel obstruction, hyperthyroidism suspected cerebrovascular insult
Summary of Patient Data 164 patients sex 70, 4 years (21 -96) Average Asymptomatic (n) 99 Urgency (n) 50 Emergency (n) 15 systolic hypertension (n) 153 diastolic hypertension (n) 40 sytol. /diastol. hypertension (n) 29 m f Anzahl number age f 103 m 61 Emergency systolic blood pressure diastolic blood pressure Median hypertension first observed hypertensive emergency 195 mm. Hg (145 -255) 100 mm. Hg (60 -130) 78, 7% 62, 2% Urgency Classification Asymptomatic
Therapy by Emergency Classes number no therapy monotherapy combination therapy Emergency Urgency Asymptomatic Class
Time-Series hypertensive emergency 1 h 6 h 12 h systolic 6 days 15 days 3. 5 months 14 months diastolic
percentage of patients Cardiovascular Risk Factors ren cy us cien uffi ry isto s al in ily h fam ellit es m bet Dia king smo cise ia em xer of e ity s obe lack pid erli hyp e non
Sex-Specific Distribution Factors cumulative risk factors Diabetes mellitus renal dysfunction physical inactivity hyperlipidemia obesity smoking m Sex f
Cardiovascular Risk Factors After 1 Year
percentage of patients Accompanying Medical Conditions AS OS se rea Inc od in b ion ht eig yw n sio en ert nce hyp plia m olis ect Inf oh Alc a hm Ast AR NS n Pai at Co om n-c No ss e Str ite Wh ne No
Patients and Frequency correlative evidence shows… • first hypertensive emergencies occur often with new patients • White Coat hypertensive patients show fewer symptoms upon examination • symptoms correlate with stress, NSAR medication and infects
Neural Network (modified from Baxt 1990) The network identified 92% of the patients with acute myocardial infarction, 96% of the patients without infarction. When all patients with the ECG evidence of infarction were removed from the cohort, the network correctly identified 80%
Neural Network Key Question “Does the evaluation contain previously inapparent information that can be used to improve on the diagnostic accuracy of predicting…” Baxt, 1990 • hypertension • gender • lack of exercise / obesity
Retained Parameters in Logistic Regression E Class p= E 0. 020 0. 035 E E E U E 0. 042 0. 017 0. 000 0. 021 U 0. 004 0. 046 Asymptomatic A NS ry R o st o di s nt ve ts en ev e ar ul sc n io ns ar n io ns ul sc va rte va pe io rd hy ar c of at Co ca rte pe hy Pseudo R 2=0. 321, goodness of classification 64% Hi te hi of at Co y or st W Hi te hi W nt tie pa ss re St w Ne n tio ec f In n=164
Dynamic Scaling of Emergency Classes 4. 5 4 3. 5 3 2. 5 2 1. 5 1 0. 5 0 -0. 5 Goodness of Classification E U Classification Model: Predictors in logistic regression 30 % Model: Predictors + Symptoms 80 % A Separation of U and A requires use of Symptom variable?
Dynamic Scaling of Emergency Classes 4. 5 4 3. 5 3 2. 5 2 1. 5 1 0. 5 0 -0. 5 „The Diagnostic Gap“ Goodness of Classification Model: Predictors in logistic regression 30 % Model: Predictors + Symptoms 80 % Model: Final E U Classification „Structural Equation“ model without parameters A 44 %
Classification in Hypertensive Emergencies Model unifying 7 different „output functions“ counting 2400 Top 10% Importance E 79. 8% +/-15. 8% U 96. 9% +/-2. 5% A 96. 3% +/-2. 4% Total 95. 0% +/-2. 4% (+/- SD) proposed cut-off max. epochs 500
Optimized Top 500 Models of 2400 Hidden Layer AF Hyperbolic tangent Sigmoid 321 182 Ouput Layer AF Hyperbolic tangent Identity Sigmoid Softmax AUCs ≥ 0. 986 83 93 37 290
Optimized Top 500 Models of 2400 Model unifying 7 different „output functions“ - Top 500 Importance E 100. 0% +/-0. 0% U 97. 7% +/-1. 1% A 99. 6% +/-0. 7% Total 99. 0% +/-0. 6% (+/- SD)
Classification in Discriminant Analysis Emergency Urgency Asymptomatic Function 2 Emergency Asymptomatic Urgency Function 1
Classification in Discriminant Analysis symptoms Symptome Kardiovaskuläre Kompli. history of Anam. cardiovascular events explained variance of 200 Alter age Weisskittelhypertonie White Coat hypertension NSAR variance Varianz Modell model 11 Varianz Modell model 22 Varianz Modell model 33 Infekt infection proposed cut-off Schmerz pain Stress stress Neuer Patient new patient Hypertonie hypertension Entgleisung first hypertensive. Erste emergency Geschlecht sex 0 10 20 30 40 50 60 70 80 90 100
Hypertensive Emergency: Goodness of Classification New data on hypertension 1 2 3 4* Method % Classification Overall Error Neural network Discriminant analysis Cat. Reg Logistic regression 1, 0 (+/- 0, 6%) - 5, 0 (+/- 2, 4%) 10, 0 16, 0 £ 29, 9 *Symptoms were not introduced The logistic regression was included with absolute values of blood pressure as a covariate – these results suggested that these could be used and led to 0% classification error at, however, low statistical significance. Yet, this furthermore indicates that future emergency schemes or health advice can be generated and replaced with medical data and binary decisions (>180 mm. Hg systolic / >110 mm. Hg diastolic) on blood pressure, if required, without the predicted loss of accuracy.
Treatment
Patient Recall? Seemed not absolutely necessary…
Drug History and Emergency Therapy p <0. 05 Cardiovascular treatment track • ACE inhibitors in drug history lead to a significantly higher prescription rate of sedatives • previous treatment with ARB results in frequent emergency treatment with ARB • ARBs in drug history lead to infrequent therapy with ACE inhibitors in hypertensive emergencies • patients receiving ARB in emergency treatment regularly receive ARB in follow-up treatment
Adverse Effects in Therapies Drugs causing drug-induced hypertension and hypertension treatment
Therapy: According to Guideline Combination Therapy Blood pressure reduction Sub-group Significance p<0. 05 6 h systolic alltogether yes 1 h systolic E yes Blood pressure reduction Sub-group Significance p<0. 05 all systolic alltogether or E, U, A none all diastolic alltogether or E, U, A none Mono-Therapy Mann-Whitney U Test
Time-Series hypertensive emergency 1 h systolic blood pressure recommendation 1 to 2 h and 2 to 6 h 6 h 12 h 6 days 15 days 3. 5 months 14 months diastolic
Time-Series: Emergency Acutely treated patients mm. Hg
Time-Series: Urgency Acutely treated patients mm. Hg
Time-Series: Asymptomatic Acutely treated patients mm. Hg
Time-Series: Emergency Acutely treated patients mm. Hg
Time-Series: Urgency Acutely treated patients mm. Hg
Time-Series: Asymptomatic Acutely treated patients mm. Hg
Average of Blood Pressures: Treated Versus Non -Treated All emergency classes Time Treatment None Initial 200 / 102 194 / 98 1 h 186 / 97 186 / 92 6 h 160 / 87 163 / 80 in mm. Hg
Textbook Guideline blood pressure* reduction achieved by 20 -30% in 1 -2 hours • the acutely treated study population was not over-treated, one emergency and three urgency, and no other cases were likely loosing systolic blood pressure too fast (not all 6 hour blood pressure values were obtained) • at least 16 cases showed systolic blood pressure values of more than 160 mm. Hg at 6 hours * Dieterle T, Zeller A, Martina B, Battegay E. Der hypertensive Notfall. Praxis. 2001
Average of Blood Pressures: Treated Versus Non -Treated All emergency classes Treatment Initial 0 h 1 h 6 h Systolic % above 160 99, 0 95, 2 55, 2 Diastolic % below 100 40, 4 55, 4 75, 9 in mm. Hg No Treatment Initial 0 h 1 h 6 h Systolic % above 160 96, 7 92, 7 44, 4 Diastolic % below 100 43, 3 63, 4 88, 9 in mm. Hg
Cardiovascular Complications Arrhythmias were not considered as primary events in the following canonical correlation. They were only included with secondary events if they led to or were followed by death.
Trends in Hypertension Hypertensive Emergency Case Decision and Classification Therapy and Cardiovascular Complications Primary Events Secondary Events Comparison of Primary and Secondary Events in this Study Conclusions
Recurrent Hypertensive Crises - Model and Correlation Canonical correlation Recurrent Hypertensive Crises modelled initial (day 6) blood pressure and risk factors
Perceptrons: Primary Events and Predictors Model unifying 6 different „output functions“ – 2400 Importance Top 1%
Perceptrons: Primary Events and Predictors Classification Top 1% 2400 models 1° Event 94. 9% +/-2. 5% 1° Event 40. 4% +/-26. 7% Total 98. 6% +/-2. 5% Total 91. 2% +/-2. 7% (+/- SD) Other 2 selected models 1° Event Total (+/- SD) 100. 0% +/-0. 0% 98. 4% +/-0. 8%
Obesity Paradox Flegal, K. M. , Kit, B. K. , Orpana, H. , & Graubard, B. I. (2013). Association of allcause mortality with overweight and obesity using standard body mass index categories: a systematic review and meta-analysis. JAMA, 309(1), 71– 82.
Perceptrons: Primary Events and Predictors Model unifying 6 different „output functions“ – 2400 Importance 2 100% Predictions
Models of Primary Events: Discriminant Analysis Age Multiple (recurrent) hypertensive crises in stepwise algorithm (no prior probabilty) set classified 78. 2% p=0. 011 p=0. 004
Perceptrons: Primary Events and Predictors
Primary Events: Goodness of Classification Method Average 1 neural network 2 discriminant analysis 3 logistic regression n=92 Overall % Primary Events % 91, 2 - 98, 4 64, 1 - 84, 8 88, 0 - 89, 1 40, 4 - 100, 0 9, 1 - 63, 3 9, 1 - 27, 3
Trends in Hypertension Hypertensive Emergency Case Decision and Classification Therapy and Cardiovascular Complications Primary Events Secondary Events Comparison of Primary and Secondary Events in this Study Conclusions
Diastolic Blood Pressure - Model and Correlation Canonical correlation Chillon and Baumbach (1997) modelled initial (day 6) blood pressure and risk factors
New Tentative Guideline for Secondary Prevention Non-Linear Blood Pressure Model with Cat. Reg Parameter P of b (regression) Age 0. 122 0. 254 Sex 0. 237 0. 148 Systolic 0. 291 0. 034 Diastolic 0. 349 0. 005 Day 6 R 2 = 0. 51 Importance
Tentative New Guideline for Secondary Prevention Blood Pressure of day 6 Secondary Event Quantification Residuals Systolic Blood Pressure Secondary Event Quantification Residuals Categories Diastolic Blood Pressure Age Categories Secondary Event Quantification Residuals Categories
Trends in Hypertension Hypertensive Emergency Case Decision and Classification Therapy and Cardiovascular Complications Primary Events Secondary Events Comparison of Primary and Secondary Events in this Study Conclusions
Secondary Versus Primary in 2198 neural Networks: Classification of 100% versus <90% < 90% Importance
Secondary Versus Primary Event in Categorical Regression Tendency Primary Event Secondary Age Alcoholism Asthma Diabetes mellitus Family History of Cardiovascular Disease Hyperlipidemia Hypertension Lack of Exercise Non-Compliance Obesity OSAS Renal Insufficiency Second Hypertensive Emergency Sex Smoking White Coat Hypertension -2 -1. 5 Modalized Family History of Cardiovascular Disease -1 -0. 5 0 Coefficient Beta 0. 5 1 1. 5 2 2. 5 3 3. 5
Stratification 3 6 2 3 1 1 3 4 5 ot h( at r) he ) lar nt ve scu va dio Age years 1 3 3 1 6 2 cumulative risk 2 4 5 6 Diabetes mellitus renal dysfunction physical inactivity hyperlipidemia obesity smoking de nt ve re la cu as t re en ev la cu as cv r ca iov rd ca of iov ry rd ca to l h( at de 2° 1° his ro nt co -1 cumulative risk 1 0 5 4 2 2 6 4 5 Group emergency scores lowest Ka k. Ko . K sk va s va io io rd rd Ka
Stratification: Risk Ratios • in patients with hypertensive emergencies history of cardiovascular events is associated with hyperlipidemia with a RR 3. 3 (CI 1. 2 -8. 9); p=0. 017 (Fisher Exact) • a history of cardiovascular events is associated with antihypertensive pretreatment with a RR 4. 4 (CI 1. 2 -15. 8); p=0. 024 (Fisher Exact) • secondary cardiovascular events are associated with smoking with a RR 3. 2 (CI 0. 8 -12. 6); p=0. 1 (Fisher Exact) this is relative to healthy cohort patients
Stratified Population: Further Predictions GLM 4 2 0 -2 An am n 0. 016 Model prob. p = 0. 005; df 21 Ast hm Wh ite b a Co pe at rte hyp nsi ym v ert pto es regression en pre ms sio tre n coefficient atm en t est ic s p An 0. 029 tih y 0. 006 0. 049
Sympathetic Drive sub-category pulmonary vascular metabolic renal on neuronal on renal nutritional/ behavioral reflexes stemming from cardiopulmonary volume-sensitive receptors arterial chemoreceptors altered in obesity or overweightdependent OSAS leptin, insulin angiotensin II subfornical organ and median preoptic nucleus in part via hypothalamus low sodium intake, alcohol excess Grassi (2009) Assessment of sympathetic cardiovascular drive in human hypertension. Hypertension Llewellyn et al. (2011) Mn. PO and SFO drive renal sympathetic nerve activity via a glutamatergic mechanism within the paraventricular nucleus. * Am J Physiol Regul Integr Comp Physiol
Sympathetic Drive 2: Increased secretion of renin, which results in higher angiotensin II levels * Neuronal on renal signalling * Koeppen & Stanton: Berne & Levy Physiology
Cardiovascular Progression Model from Strata 3200 models / selection of 1 best predictor Importance 1 2 3 4 5 6 95. 8% +/- 4. 2% 81. 2% +/-16. 4% 26. 0% +/-24. 2% 31. 8% +/-31. 6% 17. 5% +/-30. 0% 8. 1% +/-23. 8% Total 78. 4% +/-6. 8% Top 1 Total 94. 9%
Trends in Hypertension Hypertensive Emergency Case Decision and Classification Therapy and Cardiovascular Complications Primary Events Secondary Events Comparison of Primary and Secondary Events in this Study Conclusions
White Coat Hypertension - Model Canonical correlation White Coat Hypertension modelled initial (day 6) blood pressure and risk factors
Health Ranking: The Physiology According to the Big 4 Female Male Rank 133 Blood Glucose Blood Pressure BMI Cholesterol Switzerland Rank 121 higher physiological values Female Risk Ratio for White Coat Hypertension 2. 3 From WHO Data lower physiological values lower values female lower values male
The initial decision was obtained without help: equipment was corresponding to technical standards in the ambulatory Primary Care: Decision Path 2. 36 4. 62 2. 08 Initial 2. 03 4 3. 82 2 2. 38 0 4. 62 E Final U 2. 36 2. 01 Model: Red leads to higher and Green to lower ranking S
Cardiovascular Risk Factors: Not Known? • primary cardiovascular outcome (primary event) in this study cohort does not positively correlate with the number of risk factors • secondary cardiovascular outcome and risk factor association is shown for renal insufficiency and smoking • neural networks can produce predictions for primary events based on known cardiovascular risk factors • causal relationships in these neural networks may end upside down - reasons are discovered in the obesity and low alcohol consumption (Hyperplane Extraction Procedures may be found in e. g. Saad and Wunsch II, Neural Networks 20 (2007), 78)
Study: Results • primary cardiovascular events after multiple hypertensive emergencies are elevated to a rate (per year) of 56% • multiple hypertensive crises are overwhelmingly important in the neural network prediction • in models with stratification, white coat hypertension has protective influence relative to hypertension • in non-linear models, secondary or higher ranked events might be prevented by slightly elevated diastolic blood pressure of 90 mm. Hg and higher after hypertensive emergencies during 6 days, and systolic values from 130 – 165 mm. Hg
Acknowledgements Prof. Dr. Benedikt Martina, IHAM Basel Dr. Christoph Merlo, Luzern and especially the primary care doctors Members of my laboratory at the Biocenter, University of Basel and in particular Petek Çakar, Elena Kouzmenko and Christian Chatenay-Rivauday
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