FUZZY BASED PREDICTION OF MODIFIED RANKINE SCALE -MRS- OF PATIENTS WITH INTRACRANIAL ANEURYSM

نویسنده:
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چکیده: Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the patient is necessary for any medical decision making.

It is investigated that the outcome of the patient with IA could be predicted efficiently by fuzzy logic methodology.

Thus, this research can pioneer new studies in neurosur gery area.Background & Aim: Subarachnoid hemorrhage -SAH- resulting from ruptured intracranial aneurysm -IA- is a still

major cause of death and disability. Early prediction of outcome after SAH lacks accuracy since there are many

factors and uncertainties in the patient’s clinical status. It is essential to determine the severity of SAH for managing

the surgical procedures. Statistical techniques cannot processed these uncertainties simply. Fuzzy logic approach

can be used as an ef ficient predictor.

Methods & Materials/Patients: This study was conducted retrospectively in 423 patients who admitted to Ghaem

hospital of Mashhad with the diagnosis of SAH due to IA between December 2012 and April 2016. The patients

were assessed by ten significant variables; including World Federation of Neurological Surgeons scale -WFNS-,

rebleeding before operation, age, severespasm, External Ventricular Drainage -EVD-, ischemia, modified Fisher

scale -mFisher-, infection, hydrocephalus and the operation method whether it was clipping or coiling. The fuzzy

system predicts modified Rankine scale -mRs- based on table look up scheme which converts conscious and

subconscious knowledge of the expert into fuzzy IF-THEN rules.

Results: In this study, 300 patients is used for constructing the fuzzy rule base and 123 patients were assessed for

verification of the fuzzy system. Fuzzy logic predictions correl ate with the patients’ real mRs.

Conclusion: Accurate and early outcome prediction of the
کلیدواژه(گان): Subarachnoid Hemorrhage,Intracranial Aneurysm,Fuzzy Based Prediction,Modified Rankine Scale
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