region | Greater KhorasanPersiaBuyid dynasty(Hamadan)/(Rayy)/(Qazvin) |
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era | Medieval era (Islamic Golden Age) |
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name | Ibn Sīnā (ابن سینا)Pūr Sīnā (پورسینا)Avicenna |
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fullname | Abū ‘Alī al-Ḥusayn ibn ‘Abd Allāh ibn Sīnā |
---|
other names | Sharaf al-Mulk, Hujjat al-Haq, Sheikh al-Rayees |
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birth date | c. 980 |
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birth place | Afshana, near Bukhara (capital of Samanid Empire), in present day Uzbekistan |
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death date | December 10, |
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death place | Hamadan, Persia (Iran) |
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school tradition | Muslim |
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main interests | Medicine, philosophy, Islamic theology (kalam), physics, poetry, science |
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notable ideas | Father of modern medicine; Avicennian logic; concepts of inertia and momentum; important contributor to geology; pioneer of aromatherapy and neuropsychiatry |
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major works | ''The Book of Healing'', ''The Canon of Medicine'' |
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influences | the Qur'an, Muhammad, Ja'far al-Sadiq, Hippocrates, Sushruta, Charaka, Aristotle, Galen, Plotinus, Neoplatonism, Indian mathematics, Wasil ibn Ata, al-Kindi, al-Farabi, Rhazes, Biruni, John Philoponus |
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influenced | Biruni, al-Ghazali, Omar Khayyám, Fakhruddin al-Razi, Abubacer, Averroes, Shahab al-Din Suhrawardi, Tusi, Ibn al-Nafis, Scholasticism, Albertus Magnus, Duns Scotus, Aquinas, Jean Buridan, Giambattista Benedetti, Galileo, William Harvey, Descartes, Spinoza, Locke, Maimonides, M. Sibtain K.
}} |
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Abū ʿAlī al-Ḥusayn ibn ʿAbd Allāh ibn Sīnā (Persian پورسينا Pur Sina 'son of Sina'; c. 980, Afshana near Bukhara– 1037, Hamadan, Iran), commonly known as Ibn Sīnā or by his Latinized name Avicenna, was a Persian polymath, who wrote almost 450 treatises on a wide range of subjects, of which around 240 have survived. In particular, 150 of his surviving treatises concentrate on philosophy and 40 of them concentrate on medicine.
His most famous works are ''The Book of Healing'', a vast philosophical and scientific encyclopaedia, and ''The Canon of Medicine'', which was a standard medical text at many medieval universities. The ''Canon of Medicine'' was used as a text-book in the universities of Montpellier and Louvain as late as 1650. Ibn Sīnā's ''Canon of Medicine'' provides a complete system of medicine according to the principles of Galen (and Hippocrates).
He was also an astronomer, chemist, geologist, Hafiz, Islamic psychologist, Islamic scholar, Islamic theologian, logician, mathematician, Maktab teacher, physicist, poet, and scientist. He is regarded as the most famous and influential polymath of the Islamic Golden Age.
Circumstances
Avicenna created an extensive corpus of works during what is commonly known as
Islam's Golden Age, in which the translations of Greco-Roman, Persian and Indian texts were studied extensively. Greco-Roman (
Mid- and
Neo-Platonic, and
Aristotelian) texts by the
Kindi school were commented, redacted and developed substantially by Islamic intellectuals, who also built upon Persian and
Indian mathematical systems,
astronomy,
algebra,
trigonometry and
medicine. The
Samanid dynasty in eastern part of
Persia,
Greater Khorasan and
Central Asia as well as
Buyid dynasty in the western part of
Persia and
Iraq provided a thriving atmosphere for scholarly and cultural development. Under the Samanids,
Bukhara rivaled
Baghdad as a cultural capital of the Islamic world.
The study of Quran and Hadith thrived in such a scholarly atmosphere. Philosophy, Fiqh and theology (kalam) were further developed, most noticeably by Avicenna and his opponents. Al-Razi and Al-Farabi had provided methodology and knowledge in medicine and philosophy. Avicenna had access to the great libraries of Balkh, Khwarezm, Gorgan, Rey, Isfahan and Hamadan. As various texts, such as the 'Ahd with Bahmanyar show, he debated philosophical points with the greatest scholars of the time. As Aruzi Samarqandi describes in his four articles before Avicenna left Khwarezm he had met Abu Rayhan Biruni (a famous scientist and astronomer), Abu Nasr Iraqi (a renowned mathematician), Abu Sahl Masihi (a respected philosopher) and Abu al-Khayr Khammar (a great physician).
Biography
Early life
Avicenna was born c. 980 in Afshana, near
Bukhara, the capital of
Samanids, a Persian dynasty in
Central Asia and
Greater Khorasan. His father was from
Balkh, in present-day
Afghanistan and his mother from
Bukhara, in present-day
Uzbekistan. His father, Abdullah, was a respected
Ismaili scholar from
Balkh, an important town of the
Samanid Empire, in what is today
Balkh Province,
Afghanistan. His mother was named Setareh. His father was at the time of his son's birth the governor in one of the
Samanid Nuh ibn Mansur's estates. He had his son very carefully educated at Bukhara. Ibn Sina's independent thought was served by an extraordinary intelligence and memory, which allowed him to overtake his teachers at the age of fourteen. As he said in his autobiography, there was nothing that he had not learned when he reached eighteen.
A number of different theories have been proposed regarding Avicenna's madhab. Medieval historian Ẓahīr al-dīn al-Baīhaqī considered Avicenna to be a follower of the Brethren of Purity. On the other hands, Shia faqih Nurullah Shushtari and Seyyed Hossein Nasr, in addition to Henry Corbin, have maintained that he was most likely a Twelver Shia. More recently, however, Dimitri Gutas demonstrated that Avicenna was a Sunni Hanafi. Similar disagreements exist on the background of Avicenna's family, whereas some writers considered them Sunni, more recent writers thought they were Shia.
Ibn Sīnā was put under the charge of a tutor, and his precocity soon made him the marvel of his neighbors; he displayed exceptional intellectual behaviour and was a child prodigy who had memorized the Qur'an by the age of 10 and a great deal of Persian poetry as well. He learned Indian arithmetic from an Indian greengrocer, and he began to learn more from a wandering scholar who gained a livelihood by curing the sick and teaching the young. He also studied Fiqh (Islamic jurisprudence) under the Hanafi scholar Ismail al-Zahid.
As a teenager, he was greatly troubled by the ''Metaphysics'' of Aristotle, which he could not understand until he read al-Farabi's commentary on the work. For the next year and a half, he studied philosophy, in which he encountered greater obstacles. In such moments of baffled inquiry, he would leave his books, perform the requisite ablutions (wudu), then go to the mosque, and continue in prayer (salah) till light broke on his difficulties. Deep into the night, he would continue his studies, and even in his dreams problems would pursue him and work out their solution. Forty times, it is said, he read through the ''Metaphysics'' of Aristotle, till the words were imprinted on his memory; but their meaning was hopelessly obscure, until one day they found illumination, from the little commentary by Farabi, which he bought at a bookstall for the small sum of three dirhams. So great was his joy at the discovery, made with the help of a work from which he had expected only mystery, that he hastened to return thanks to God, and bestowed alms upon the poor.
He turned to medicine at 16, and not only learned medical theory, but also by gratuitous attendance of the sick had, according to his own account, discovered new methods of treatment. The teenager achieved full status as a qualified physician at age 18, and found that "Medicine is no hard and thorny science, like mathematics and metaphysics, so I soon made great progress; I became an excellent doctor and began to treat patients, using approved remedies." The youthful physician's fame spread quickly, and he treated many patients without asking for payment.
Adulthood
Ibn Sina's first appointment was that of physician to the emir, who owed him his recovery from a dangerous illness (997). Ibn Sina's chief reward for this service was access to the royal library of the Samanids, well-known patrons of scholarship and scholars. When the library was destroyed by fire not long after, the enemies of Ibn Sina accused him of burning it, in order for ever to conceal the sources of his knowledge. Meanwhile, he assisted his father in his financial labours, but still found time to write some of his earliest works.
When Ibn Sina was 22 years old, he lost his father. The Samanid dynasty came to its end in December 1004. Ibn Sina seems to have declined the offers of Mahmud of Ghazni, and proceeded westwards to Urgench in the modern Turkmenistan, where the vizier, regarded as a friend of scholars, gave him a small monthly stipend. The pay was small, however, so Ibn Sina wandered from place to place through the districts of Nishapur and Merv to the borders of Khorasan, seeking an opening for his talents. Qabus, the generous ruler of Dailam and central Persia, himself a poet and a scholar, with whom Ibn Sina had expected to find an asylum, was about that date (1012) starved to death by his troops who had revolted. Ibn Sina himself was at this season stricken down by a severe illness. Finally, at Gorgan, near the Caspian Sea, Ibn Sina met with a friend, who bought a dwelling near his own house in which Ibn Sina lectured on logic and astronomy. Several of Ibn Sina's treatises were written for this patron; and the commencement of his ''Canon of Medicine'' also dates from his stay in Hyrcania.
Ibn Sina subsequently settled at Rai, in the vicinity of modern Tehran, (present day capital of Iran), the home town of Rhazes; where Majd Addaula, a son of the last Buwayhid emir, was nominal ruler under the regency of his mother (Seyyedeh Khatun). About thirty of Ibn Sina's shorter works are said to have been composed in Rai. Constant feuds which raged between the regent and her second son, Shams al-Daula, however, compelled the scholar to quit the place. After a brief sojourn at Qazvin he passed southwards to Hamadãn where Shams al-Daula, another Buwayhid emir, had established himself. At first, Ibn Sina entered into the service of a high-born lady; but the emir, hearing of his arrival, called him in as medical attendant, and sent him back with presents to his dwelling. Ibn Sina was even raised to the office of vizier. The emir consented that he should be banished from the country. Ibn Sina, however, remained hidden for forty days in a sheikh Ahmed Fadhel's house, until a fresh attack of illness induced the emir to restore him to his post. Even during this perturbed time, Ibn Sina persevered with his studies and teaching. Every evening, extracts from his great works, the ''Canon'' and the ''Sanatio'', were dictated and explained to his pupils. On the death of the emir, Ibn Sina ceased to be vizier and hid himself in the house of an apothecary, where, with intense assiduity, he continued the composition of his works.
Meanwhile, he had written to Abu Ya'far, the prefect of the dynamic city of Isfahan, offering his services. The new emir of Hamadan, hearing of this correspondence and discovering where Ibn Sina was hidden, incarcerated him in a fortress. War meanwhile continued between the rulers of Isfahan and Hamadãn; in 1024 the former captured Hamadan and its towns, expelling the Tajik mercenaries. When the storm had passed, Ibn Sina returned with the emir to Hamadan, and carried on his literary labors. Later, however, accompanied by his brother, a favorite pupil, and two slaves, Ibn Sina escaped out of the city in the dress of a Sufi ascetic. After a perilous journey, they reached Isfahan, receiving an honorable welcome from the prince.
Later life and death
The remaining ten or twelve years of Ibn Sīnā's life were spent in the service of Abu Ja'far 'Ala Addaula, whom he accompanied as physician and general literary and scientific adviser, even in his numerous campaigns.
During these years he began to study literary matters and philology, instigated, it is asserted, by criticisms on his style. A severe colic, which seized him on the march of the army against Hamadan, was checked by remedies so violent that Ibn Sina could scarcely stand. On a similar occasion the disease returned; with difficulty he reached Hamadan, where, finding the disease gaining ground, he refused to keep up the regimen imposed, and resigned himself to his fate.
His friends advised him to slow down and take life moderately. He refused, however, stating that: ''"I prefer a short life with width to a narrow one with length"''. On his deathbed remorse seized him; he bestowed his goods on the poor, restored unjust gains, freed his slaves, and read through the Qur'an every three days until his death. He died in June 1037, in his fifty-eighth year, in the month of Ramadan and was buried in Hamadan, Iran.
''The Canon of Medicine''
About 100 treatises were ascribed to Ibn Sina. Some of them are tracts of a few pages. Others are works extending through several volumes. His 14-volume ''The Canon of Medicine'' (Al-Qanoon fi al-Tibb, The Laws of Medicine) was a standard medical text in Europe and the Islamic world up until the 18th century.
Medicine and pharmacology
The book is known for the discovery of
contagious diseases and
sexually transmitted diseases, the introduction of
quarantine to limit the spread of
infectious diseases, the introduction of
experimental medicine,
clinical trials,
neuropsychiatry,
risk factor analysis, and the idea of a
syndrome in the
diagnosis of specific diseases, Ibn Sīnā adopted, from the Greeks, the theory that epidemics are caused by pollution in the air (
miasma). It classifies and describes
diseases, and outlines their assumed causes.
Hygiene, simple and complex medicines, and functions of parts of the body are also covered. In this, Ibn Sīnā is credited as being the first to correctly document the anatomy of the human eye, along with descriptions of eye afflictions such as
cataracts. It asserts that
tuberculosis was contagious, which was later disputed by Europeans, but turned out to be true. It also describes the symptoms and complications of
diabetes. Both forms of facial paralysis were described in-depth.
''The Canon of Medicine'' was the first book dealing with experimental medicine, evidence-based medicine, randomized controlled trials, and efficacy tests, and it laid out the following rules and principles for testing the effectiveness of new drugs and medications, which still form the basis of clinical pharmacology and modern clinical trials:
The drug must be free from any extraneous accidental quality.
It must be used on a simple, not a composite, disease.
The drug must be tested with two contrary types of diseases, because sometimes a drug cures one disease by Its essential qualities and another by its accidental ones.
The quality of the drug must correspond to the strength of the disease. For example, there are some drugs whose heat is less than the coldness of certain diseases, so that they would have no effect on them.
The time of action must be observed, so that essence and accident are not confused.
The effect of the drug must be seen to occur constantly or in many cases, for if this did not happen, it was an accidental effect.
The experimentation must be done with the human body, for testing a drug on a lion or a horse might not prove anything about its effect on man.
An Arabic edition of the ''Canon'' appeared at Rome in 1593, and a Hebrew version at Naples in 1491. Of the Latin version there were about thirty editions, founded on the original translation by Gerard de Sabloneta. In the 15th century a commentary on the text of the ''Canon'' was composed. Other medical works translated into Latin are the ''Medicamenta Cordialia'', ''Canticum de Medicina'', and the ''Tractatus de Syrupo Acetoso''.
It was mainly accident which determined that from the 12th to the 18th century, Ibn Sīnā should be the guide of medical study in European universities, and eclipse the names of Rhazes, Ali ibn al-Abbas and Averroes. His work is not essentially different from that of his predecessor Rhazes, because he presented the doctrine of Galen, and through Galen the doctrine of Hippocrates, modified by the system of Aristotle. But the ''Canon'' of Ibn Sīnā is distinguished from the ''Al-Hawi'' (Continence) or ''Summary'' of Rhazes by its greater method, due perhaps to the logical studies of the former.
The work has been variously appreciated in subsequent ages, some regarding it as a treasury of wisdom, and others, like Averroes, holding it useful only as waste paper. In modern times it has been mainly of historic interest as most of its tenets have been disproved or expanded upon by scientific medicine. The vice of the book is excessive classification of bodily faculties, and over-subtlety in the discrimination of diseases. It includes five books; of which the first and second discuss physiology, pathology and hygiene, the third and fourth deal with the methods of treating disease, and the fifth describes the composition and preparation of remedies. This last part contains some personal observations.
He is ample in the enumeration of symptoms, and is said to be inferior in practical medicine and surgery. He introduced into medical theory the ''four causes of the Peripatetic system''. Of natural history and botany he pretended to no special knowledge. Up to the year 1650, or thereabouts, the ''Canon'' was still used as a textbook in the universities of Leuven and Montpellier.
In the museum at Bukhara, there are displays showing many of his writings, surgical instruments from the period and paintings of patients undergoing treatment. Ibn Sīnā was interested in the effect of the mind on the body, and wrote a great deal on psychology, likely influencing Ibn Tufayl and Ibn Bajjah. He also introduced medical herbs.
Avicenna extended the theory of temperaments in ''The Canon of Medicine'' to encompass "emotional aspects, mental capacity, moral attitudes, self-awareness, movements and dreams." He summarized his version of the four humours and temperaments in a table as follows:
Physical Exercise: the Key to Health
The Canon of Medicine: Volume 1 of 5; Part 4 of 5: The Preservation of Health
Ibn Sina's Canon of Medicine which is written in 5 volumes, only the first volume has appeared in the English Language. In the first volume, Ibn Sina divides medicine into two parts as he explains it throughout the first book: the theoretical and the practical. The theoretical part consists of, but is not excluded to, such things as: the causes of health and disease, the temperaments, the humours, the anatomy, general physiology, the breath, psychology, discussion of causes diseases and symptoms, the causes of illness, the classification of diseases, the pulse, the urine etc.
}}
Theoretical and Practical Medicine
Ibn Sina goes on to say that you do not get any benefit from just knowing how your body works, but rather the true benefit of medicine itself is in its practical aspect, since medicine is for the preservation of health.
}}
The Benefits of Exercise
Once the purpose of medicine has been set forth, then from pages 377-455, Ibn Sina divides the way of achieving health as:
}}
Exercise itself is divided into three main parts: The Massage (which is equivalent to massaging your muscles before you start to exercise); The Exercise itself; and lastly the Cold Bath.
Giving one of the greatest benefits of the regimen of exercise, and then explaining the extremely important and necessary need for physical exercise; Ibn Sina states:
}}
}}
In what manner does Ibn Sina uses the word temperament? In saying that exercise cures diseases of temperamant
Ibn Sina divides temperament into that which is harmonious and that which is non-uniform. Ibn Sina says on pg 276-277
}}
}}
The Purpose of Exercise and the Dangers of its negligence
Just before this Ibn Sina explained how accumulation of food in our body, can cause diseases, and one way to rid us of this is strong medicines. However, as he explains; this is not the ideal way, and certainly not the long-term. Thus, to make his point very clear, and show the extreme necessity of daily exercise for health, Ibn Sina states:
Massage
Before you begin to exercise it is important that you massage your muscles; as Ibn Sina says on page 385:
}}
Exercises
The exercises themselves are divided into 'strenuous, mild, vigorous and brisk'. On pages 379-381; Ibn Sina states the types of exercises under each type:
}}
There are certain important things to note once you start exercising, one is the amount, the other consistency; Ibn Sina states about the amount:
}}
On being consistent with exercise Ibn Sina states (on the importance of having a regimen):
}}
On the side note those who think themselves to be elderly, and thus think of shunning exercise, Ibn Sina write a complete chapter titled "Concerning the Elderly" in the Qanun, and states the same regimen for them, as he does for others. He states on page 433
}}
Bathing in Cold Water
Once you have finished exercising; it is often that the person will feel tired and fatigued; to combat this problem Ibn Sina says on page 388:
}}
Most importantly you should remember:
}}
There are two more things that are important to mention on this subject:
}}
}}
Diet
Once Ibn Sina has laid the foundation of exercise being central to health, he names many exercises as running, swimming, weight lifting, polo, fencing, boxing, wrestling, long jumping, high jumping, etc. He also gives a diet to go along with the exercise:
}}
Lastly, the third thing mentioned is sleep; to make sure that you do not sleep during the days, and do not stay awake during the nights. From the above reading, it is clear that Ibn Sina gave advice in his book which is still the same advice medical doctors give to their patients.Daily Physical Exercise; and to defeat diseases such as type 2 diabetes, high blood pressure, the prescription of a diet which contains high amounts of Whole Grains and little to no amounts of Refined Carbohydrates.
Psychology
Avicenna was a pioneer of [[neuropsychiatry">eye puffiness
rough skin, acquired habit
|
Foods & medicines
|
calefacients harmful, infrigidants beneficial
|
infrigidants harmful, calefacients beneficial
|
|
|
Relation to weather
|
worse in summer
|
worse in winter
|
|
bad in autumn
|
Physical Exercise: the Key to Health
The Canon of Medicine: Volume 1 of 5; Part 4 of 5: The Preservation of Health
Ibn Sina's Canon of Medicine which is written in 5 volumes, only the first volume has appeared in the English Language. In the first volume, Ibn Sina divides medicine into two parts as he explains it throughout the first book: the theoretical and the practical. The theoretical part consists of, but is not excluded to, such things as: the causes of health and disease, the temperaments, the humours, the anatomy, general physiology, the breath, psychology, discussion of causes diseases and symptoms, the causes of illness, the classification of diseases, the pulse, the urine etc.
}}
Theoretical and Practical Medicine
Ibn Sina goes on to say that you do not get any benefit from just knowing how your body works, but rather the true benefit of medicine itself is in its practical aspect, since medicine is for the preservation of health.
}}
The Benefits of Exercise
Once the purpose of medicine has been set forth, then from pages 377-455, Ibn Sina divides the way of achieving health as:
}}
Exercise itself is divided into three main parts: The Massage (which is equivalent to massaging your muscles before you start to exercise); The Exercise itself; and lastly the Cold Bath.
Giving one of the greatest benefits of the regimen of exercise, and then explaining the extremely important and necessary need for physical exercise; Ibn Sina states:
}}
}}
In what manner does Ibn Sina uses the word temperament? In saying that exercise cures diseases of temperamant
Ibn Sina divides temperament into that which is harmonious and that which is non-uniform. Ibn Sina says on pg 276-277
}}
}}
The Purpose of Exercise and the Dangers of its negligence
Just before this Ibn Sina explained how accumulation of food in our body, can cause diseases, and one way to rid us of this is strong medicines. However, as he explains; this is not the ideal way, and certainly not the long-term. Thus, to make his point very clear, and show the extreme necessity of daily exercise for health, Ibn Sina states:
Massage
Before you begin to exercise it is important that you massage your muscles; as Ibn Sina says on page 385:
}}
Exercises
The exercises themselves are divided into 'strenuous, mild, vigorous and brisk'. On pages 379-381; Ibn Sina states the types of exercises under each type:
}}
There are certain important things to note once you start exercising, one is the amount, the other consistency; Ibn Sina states about the amount:
}}
On being consistent with exercise Ibn Sina states (on the importance of having a regimen):
}}
On the side note those who think themselves to be elderly, and thus think of shunning exercise, Ibn Sina write a complete chapter titled "Concerning the Elderly" in the Qanun, and states the same regimen for them, as he does for others. He states on page 433
}}
Bathing in Cold Water
Once you have finished exercising; it is often that the person will feel tired and fatigued; to combat this problem Ibn Sina says on page 388:
}}
Most importantly you should remember:
}}
There are two more things that are important to mention on this subject:
}}
}}
Diet
Once Ibn Sina has laid the foundation of exercise being central to health, he names many exercises as running, swimming, weight lifting, polo, fencing, boxing, wrestling, long jumping, high jumping, etc. He also gives a diet to go along with the exercise:
}}
Lastly, the third thing mentioned is sleep; to make sure that you do not sleep during the days, and do not stay awake during the nights. From the above reading, it is clear that Ibn Sina gave advice in his book which is still the same advice medical doctors give to their patients.Daily Physical Exercise; and to defeat diseases such as type 2 diabetes, high blood pressure, the prescription of a diet which contains high amounts of Whole Grains and little to no amounts of Refined Carbohydrates.
Psychology
Avicenna was a pioneer of
hallucination,
insomnia,
mania,
nightmare,
melancholia,
dementia,
epilepsy,
paralysis,
stroke, [[vertigo (medical)">vertigo and
tremor.
In ''The Canon of Medicine'', Avicenna dealt with neuropsychiatry and described a number of neuropsychiatric conditions, including melancholia. He described melancholia as a depressive type of mood disorder in which the person may become suspicious and develop certain types of phobias.
Unani medicine
Though the threads which comprise
Unani healing can be traced all the way back to
Galen of Pergamon, who lived in the 2nd century AD, the basic knowledge of Unani medicine as a healing system was developed by Hakim Ibn Sina in his medical encyclopedia ''The Canon of Medicine''. The time of origin is thus dated at ''circa'' 1025 AD, when Avicenna wrote ''The Canon of Medicine'' in
Persia, which remains a text book in the syllabus of Unani medicine in the colleges of India and Pakistan. While he was primarily influenced by
Greek and
Islamic medicine, he was also influenced by the
Indian medical teachings of
Sushruta and
Charaka.
''The Book of Healing''
Earth sciences
Ibn Sīnā wrote on
Earth sciences such as
geology in ''The Book of Healing'', in which he developed the concept of
uniformitarianism and
law of superposition in
geology. While discussing the formation of
mountains, he explained:
Due to his fundamental contributions to the development of geology, particularly regarding the origins of mountains, Avicenna has been called the 'Father of Geology'.
Philosophy of science
In the ''Al-Burhan'' (''On Demonstration'') section of ''The Book of Healing'', Avicenna discussed the
philosophy of science and described an early
scientific method of
inquiry. He discusses
Aristotle's ''
Posterior Analytics'' and significantly diverged from it on several points. Avicenna discussed the issue of a proper methodology for scientific inquiry and the question of "How does one acquire the first principles of a science?" He asked how a scientist would arrive at "the initial
axioms or
hypotheses of a
deductive science without inferring them from some more basic premises?" He explains that the ideal situation is when one grasps that a "relation holds between the terms, which would allow for absolute, universal certainty." Avicenna then adds two further methods for arriving at the
first principles: the ancient
Aristotelian method of
induction (''istiqra''), and the method of
examination and
experimentation (''tajriba''). Avicenna criticized Aristotelian induction, arguing that "it does not lead to the absolute, universal, and certain premises that it purports to provide." In its place, he develops a "method of experimentation as a means for scientific inquiry."
Physics
In
mechanics, Ibn Sīnā, in ''The Book of Healing'', developed an elaborate theory of
motion, in which he made a distinction between the inclination (tendency to motion) and
force of a
projectile, and concluded that motion was a result of an inclination (''mayl'') transferred to the projectile by the thrower, and that
projectile motion in a vacuum would not cease. He viewed inclination as a permanent force whose effect is dissipated by external forces such as
air resistance.
His theory of motion is thus reminiscent of the theory of inertia, now known as Newton's first law of motion. His theory of ''mayl'' also attempted to provide a quantitive relation between the weight and velocity of a moving body, resembling the concept of momentum, a precursor to the concept of momentum in Newton's second law of motion. Ibn Sīnā's theory of ''mayl'' was further developed by Jean Buridan in his theory of impetus.
In optics, Ibn Sina "observed that if the perception of light is due to the emission of some sort of particles by a luminous source, the speed of light must be finite." He also provided a wrong explanation of the rainbow phenomenon. Carl Benjamin Boyer described Avicenna's ("Ibn Sīnā") theory on the rainbow as follows:
In 1253, a Latin text entitled ''Speculum Tripartitum'' stated the following regarding Avicenna's theory on heat:
}}
Psychology
Avicenna's legacy in classical
psychology is primarily embodied in the ''Kitab al-nafs'' parts of his ''Kitab al-shifa''' (''The Book of Healing'') and ''Kitab al-najat'' (''The Book of Deliverance''). These were known in Latin under the title ''De Anima'' (treatises "on the soul"). The main thesis of these tracts is represented in his so-called "flying man" argument, which resonates with what was centuries later entailed by
Descartes's ''cogito'' argument (or what
phenomenology designates as a form of an "''epoche''").
Avicenna’s psychology requires that connection between the body and soul be strong enough to ensure the soul’s individuation, but weak enough to allow for its immortality. Avicenna grounds his psychology on physiology, which means his account of the soul is one that deals almost entirely with the natural science of the body and its abilities of perception. Thus, the philosopher's connection between the soul and body is explained almost entirely by his understanding of perception; in this way, bodily perception interrelates with the immaterial human intellect. In sense perception, the perceiver senses the form of the object; first, by perceiving features of the object by our external senses. This sensory information is supplied to the internal senses, which merge all the pieces into a whole, unified conscious experience. This process of perception and abstraction is the nexus of the soul and body, for the material body may only perceive material objects, while the immaterial soul may only receive the immaterial, universal forms. The way the soul and body interact in the final abstraction of the universal from the concrete particular is the key to their relationship and interaction, which takes place in the physical body.
The soul completes the action of intellection by accepting forms that have been abstracted from matter. This process requires a concrete particular (material) to be abstracted into the universal intelligible (immaterial). The material and immaterial interact through the Active Intellect, which is a “divine light” containing the intelligible forms. The Active Intellect reveals the universals concealed in material objects much like the sun makes color available to our eyes.
Avicennian philosophy
Ibn Sīnā wrote extensively on
early Islamic philosophy, especially the subjects
logic,
ethics, and
metaphysics, including treatises named ''Logic'' and ''Metaphysics''. Most of his works were written in
Arabic - which was the ''de facto'' scientific
language of the time in the Middle East, and some were written in the
Persian language. Of linguistic significance even to this day are a few books that he wrote in nearly pure Persian language (particularly the Danishnamah-yi 'Ala', Philosophy for Ala' ad-Dawla'). Ibn Sīnā's commentaries on Aristotle often corrected the philosopher, encouraging a lively debate in the spirit of
ijtihad.
In the medieval Islamic world, due to Avicenna's successful reconciliation between Aristotelianism and Neoplatonism along with Kalam, Avicennism eventually became the leading school of Islamic philosophy by the 12th century, with Avicenna becoming a central authority on philosophy.
Avicennism was also influential in medieval Europe, particular his doctrines on the nature of the soul and his existence-essence distinction, along with the debates and censure that they raised in scholastic Europe. This was particularly the case in Paris, where Avicennism was later proscribed in 1210. Nevertheless, his psychology and theory of knowledge influenced William of Auvergne, Bishop of Paris and Albertus Magnus, while his metaphysics had an impact on the thought of Thomas Aquinas.
Metaphysical doctrine
Early Islamic philosophy and
Islamic metaphysics, imbued as it is with
Islamic theology, distinguishes more clearly than
Aristotelianism the difference between
essence and
existence. Whereas existence is the domain of the contingent and the accidental, essence endures within a being beyond the accidental. The philosophy of Ibn Sīnā, particularly that part relating to
metaphysics, owes much to
al-Farabi. The search for a definitive Islamic philosophy separate from
Occasionalism can be seen in what is left of his work.
Following al-Farabi's lead, Avicenna initiated a full-fledged inquiry into the question of being, in which he distinguished between essence (''Mahiat'') and existence (''Wujud''). He argued that the fact of existence can not be inferred from or accounted for by the essence of existing things, and that form and matter by themselves cannot interact and originate the movement of the universe or the progressive actualization of existing things. Existence must, therefore, be due to an agent-cause that necessitates, imparts, gives, or adds existence to an essence. To do so, the cause must be an existing thing and coexist with its effect.
Avicenna’s consideration of the essence-attributes question may be elucidated in terms of his ontological analysis of the modalities of being; namely impossibility, contingency, and necessity. Avicenna argued that the impossible being is that which cannot exist, while the contingent in itself (''mumkin bi-dhatihi'') has the potentiality to be or not to be without entailing a contradiction. When actualized, the contingent becomes a ‘necessary existent due to what is other than itself’ (''wajib al-wujud bi-ghayrihi''). Thus, contingency-in-itself is potential beingness that could eventually be actualized by an external cause other than itself. The metaphysical structures of necessity and contingency are different. Necessary being due to itself (''wajib al-wujud bi-dhatihi'') is true in itself, while the contingent being is ‘false in itself’ and ‘true due to something else other than itself’. The necessary is the source of its own being without borrowed existence. It is what always exists. The Necessary exists ‘due-to-Its-Self’, and has no quiddity/essence (''mahiyya'') other than existence (''wujud''). Furthermore, It is ‘One’ (''wahid ahad'') since there cannot be more than one ‘Necessary-Existent-due-to-Itself’ without differentia (fasl) to distinguish them from each other. Yet, to require differentia entails that they exist ‘due-to-themselves’ as well as ‘due to what is other than themselves’; and this is contradictory. However, if no differentia distinguishes them from each other, then there is no sense in which these ‘Existents’ are not one and the same. Avicenna adds that the ‘Necessary-Existent-due-to-Itself’ has no genus (''jins''), nor a definition (''hadd''), nor a counterpart (''nadd''), nor an opposite (''did''), and is detached (''bari’'') from matter (''madda''), quality (''kayf''), quantity (''kam''), place (''ayn''), situation (''wad’''), and time (''waqt'').
Natural philosophy
Ibn Sina and
Abū Rayhān al-Bīrūnī engaged in a written debate, with Abu Rayhan Biruni mostly criticizing
Aristotelian natural philosophy and the
Peripatetic school, while Avicenna and his student Ahmad ibn 'Ali al-Ma'sumi respond to Biruni's criticisms in writing. Abu Rayhan began by asking Avicenna eighteen questions, ten of which were criticisms of
Aristotle's ''
On the Heavens''.
Theology
Ibn Sīnā was a devout Muslim and sought to reconcile rational philosophy with
Islamic theology. His aim was to prove the existence of God and His creation of the world scientifically and through
reason and
logic. Avicenna wrote a number of treatises dealing with Islamic theology. These included treatises on the
Islamic prophets, whom he viewed as "inspired philosophers", and on various scientific and philosophical interpretations of the
Qur'an, such as how Quranic
cosmology corresponds to his own philosophical system.
Ibn Sīnā memorized the Qur'an by the age of seven, and as an adult, he wrote five treatises commenting on suras from the Qur'an. One of these texts included the ''Proof of Prophecies'', in which he comments on several Quranic verses and holds the Qur'an in high esteem. Avicenna argued that the Islamic prophets should be considered higher than philosophers.
Thought experiments
While he was imprisoned in the castle of Fardajan near
Hamadhan, Avicenna wrote his famous "Floating Man"
thought experiment to demonstrate human
self-awareness and the substantiality and immateriality of the
soul. Avicenna believed his "Floating Man" thought experiment demonstrated that the soul is a substance, and claimed humans cannot doubt their own consciousness, even in a situation that prevents all sensory data input. The thought experiment told its readers to imagine themselves created all at once while suspended in the air, isolated from all
sensations, which includes no sensory contact with even their own bodies. He argued that, in this scenario, one would still have
self-consciousness. Because it is conceivable that a person, suspended in air while cut off from sense experience, would still be capable of determining his own existence, the thought experiment points to the conclusions that the soul is a perfection, independent of the body, and an immaterial substance. The conceivability of this “Floating Man” indicates that the soul is perceived intellectually, which entails the soul’s separateness from the body. Avicenna referred to the living human
intelligence, particularly the
active intellect, which he believed to be the
hypostasis by which God communicates
truth to the human
mind and imparts order and intelligibility to
nature. However, Avicenna posited the brain as the place where reason interacts with sensation. Sensation prepares the soul to receive rational concepts from the universal Agent Intellect. The first knowledge of the flying person would be “I am,” affirming his or her essence. That essence could not be the body, obviously, as the flying person has no sensation. Thus, the knowledge that “I am” is the core of a human being: the soul exists and is self-aware. Avicenna thus concluded that the idea of the
self is not logically dependent on any physical
thing, and that the soul should not be seen in
relative terms, but as a primary given, a
substance. The body is unnecessary; in relation to it, the soul is its perfection. In itself, the soul is an immaterial substance.
Other contributions
Astronomy and astrology
The
practice of judicial astrology was refuted by Avicenna. His reasons were due to the methods used by astrologers in judicial astrology being
conjectural rather than
empirical and also due to the principles of this type of astrology conflicting with orthodox
Islam. He also cited passages from the
Qur'an in order to justify his refutation of astrology on both scientific and religious grounds. However, Avicenna’s refutation of astrology (in the treatise titled (''Resāla fī ebṭāl aḥkām al-nojūm'') concerned only the judicial application of astrology rather than the philosophical principles of the subject and its natural influence. He stated that it was true that each planet had some influence on the earth, but his argument was the difficulty of astrologers being able to determine the exact effect of it. In essence, Avicenna did not refute astrology, but denied man’s limited capacity to be able to know the precise effects of the stars on the sublunar matter. With that, he did not refute the essential dogma of astrology, but only refuted our ability to fully understand it.
In astronomy, he criticized Aristotle's view of the stars receiving their light from the Sun. Ibn Sīnā stated that the stars are self-luminous, and believed that the planets are also self-luminous. He claimed to have observed the transit of Venus across the Sun on May 24, 1032. However, modern scholars have questioned whether he could have observed the transit from his location at that time. He used his transit observation to demonstrate that Venus was, at least sometimes, below the Sun in the Ptolemaic cosmology.
Soon after, he wrote the ''Compendium of the Almagest'', a commentary on Ptolemy's ''Almagest''. Avicenna concluded that Venus is closer to the Earth than the Sun. In 1070, Abu Ubayd al-Juzjani, a pupil of Ibn Sīnā, claimed that his teacher Ibn Sīnā had solved the equant problem in the Ptolemaic model.
Chemistry
In
chemistry, the chemical process of
steam distillation was first described by Ibn Sīnā. The technique was used to produce
alcohol and
essential oils; the latter was fundamental to
aromatherapy. He also invented the
refrigerated coil, which condenses the
aromatic vapours. This was a breakthrough in
distillation technology and he made use of it in his steam distillation process, which requires
refrigerated tubing, to produce essential oils.
As a chemist, Avicenna was one of the first to write refutations on alchemy, after al-Kindi. Four of his works on the refutation of alchemy were translated into Latin as:
''Liber Aboali Abincine de Anima in arte Alchemiae''
''Declaratio Lapis physici Avicennae filio sui Aboali''
''Avicennae de congelatione et conglutinatione lapifum''
''Avicennae ad Hasan Regem epistola de Re recta''
In one of these works, Ibn Sīnā discredited the theory of the transmutation of substances commonly believed by alchemists:
Among his works refuting alchemy, ''Liber Aboali Abincine de Anima in arte Alchemiae'' was the most influential, having influenced later medieval chemists and alchemists such as Vincent of Beauvais.
In another work, translated into Latin as ''De congelatione et conglutinatione lapidum'', Ibn Sina proposed a four-part classification of inorganic bodies, which was a significant improvement over the two-part classification of Aristotle (into ''orycta'' and metals) and three-part classification of Galen (into ''terrae'', ''lapides'' and metals). The four parts of Ibn Sina's classification were: ''lapides'', sulfur, salts and metals.
Engineering
In the chapters on
mechanics and
engineering in his encyclopedia ''Mi'yar al-'aql'' (''The Measure of the Mind''), Avicenna writes an analysis on the ''ilm al-hiyal'' (science of ingenious devices) and makes the first successful attempt to classify simple
machines and their combinations. He first describes and
illustrates the five constituent simple machines: the
lever,
pulley,
screw,
wedge, and
windlass. He then analyzes all the combinations of these simple machines, such as the windlass-screw, windlass-pulley and windlass-lever for example. He is also the first to describe a
mechanism which is essentially a combination of all of these simple machines (except for the wedge).
Poetry
Almost half of Ibn Sīnā's works are versified. His poems appear in both Arabic and Persian. As an example, Edward Granville Browne claims that the following
Persian verses are incorrectly attributed to
Omar Khayyám, and were originally written by Ibn Sīnā:
Legacy
As early as the 14th century when
Dante Alighieri depicted him in Limbo alongside the virtuous non-Christian thinkers in his
Divine Comedy such as
Virgil,
Averroes,
Homer,
Horace,
Ovid,
Lucan,
Socrates,
Plato, and
Saladin, Avicenna has been recognized by both East and West, as one of the great figures in intellectual history.
George Sarton, the author of ''The History of Science'', described Ibn Sīnā as "one of the greatest thinkers and medical scholars in history" and called him "the most famous scientist of Islam and one of the most famous of all races, places, and times." He was one of the Islamic world's leading writers in the field of medicine. He was influenced by the approach of Hippocrates and Galen, as well as Sushruta and Charaka. Along with Rhazes, Abulcasis, Ibn al-Nafis, and al-Ibadi, Ibn Sīnā is considered an important compiler of early Muslim medicine. He is remembered in Western history of medicine as a major historical figure who made important contributions to medicine and the European Renaissance. Ibn Sīnā is also considered the father of the fundamental concept of momentum in physics.
In Iran, he is considered a national icon, and is often regarded as one of the greatest Persians to have ever lived. Many portraits and statues remain in Iran today. An impressive monument to the life and works of the man who is known as the 'doctor of doctors' still stands outside the Bukhara museum and his portrait hangs in the Hall of the Avicenna Faculty of Medicine in the University of Paris. There is also a crater on the Moon named Avicenna. Bu-Ali Sina University in Hamadan (Iran), the ''ibn Sīnā'' Tajik State Medical University in Dushanbe (The capital of the Republic of Tajikistan), Ibn Sina Academy of Medieval Medicine and Sciences at Aligarh, India, Avicenna School in Karachi and Avicenna Medical College in Lahore Pakistan, Ibne Sina Balkh Medical School in his native province of Balkh in Afghanistan, Ibni Sina Faculty Of Medicine of Ankara University Ankara, Turkey and Ibn Sina Integrated School in Marawi City (Philippines) are all named in his honour.
In 1980, the former Soviet Union, which then ruled his birthplace Bukhara, celebrated the thousandth anniversary of Avicenna's birth by circulating various commemorative stamps with artistic illustrations, and by erecting a bust of Avicenna based on anthropological research by Soviet scholars. Near his birthplace in Qishlak Afshona, some . north of Bukhara, a training college for medical staff has been named for him. On the grounds is a museum dedicated to his life, times and work.
In March 2008, it was announced that Avicenna’s name would be used for new Directories of education institutions for health care professionals, worldwide. The Avicenna Directories will list universities and schools where doctors, public health practitioners, pharmacists and others, are educated. The project team stated “Why Avicenna? Avicenna ... was ... noted for his synthesis of knowledge from both east and west. He has had a lasting influence on the development of medicine and health sciences. The use of Avicenna’s name symbolises the worldwide partnership that is needed for the promotion of health services of high quality.”
Works
The treatises of Ibn Sīnā influenced later Muslim thinkers in many areas including
theology,
philology,
mathematics,
astronomy,
physics, and
music. Ibn Sīnā's works numbered almost 450 volumes on a wide range of subjects, of which around 240 have survived. In particular, 150 volumes of his surviving works concentrate on philosophy and 40 of them concentrate on medicine.
''Sirat al-shaykh al-ra’is'' (''The Life of Ibn Sina''), ed. and trans. WE. Gohlman, Albany, NY: State University of New York Press, 1974. (The only critical edition of Ibn Sina’s autobiography, supplemented with material from a biography by his student Abu ‘Ubayd al-Juzjani. A more recent translation of the Autobiography appears in D. Gutas, Avicenna and the Aristotelian Tradition: Introduction to Reading Avicenna’s Philosophical Works, Leiden: Brill, 1988.)
''Al-Isharat wa-‘l-tanbihat'' (''Remarks and Admonitions''), ed. S. Dunya, Cairo, 1960; parts translated by S.C. Inati, Remarks and Admonitions, Part One: Logic, Toronto, Ont.: Pontifical Institute for Mediaeval Studies, 1984, and Ibn Sina and Mysticism, Remarks and Admonitions: Part 4, London: Kegan Paul International, 1996.
''Al-Qanun fi’l-tibb'' (''The Canon of Medicine''), ed. I. a-Qashsh, Cairo, 1987. (Encyclopedia of medicine.)
''Risalah fi sirr al-qadar'' (''Essay on the Secret of Destiny''), trans. G. Hourani in Reason and Tradition in Islamic Ethics, Cambridge: Cambridge University Press, 1985.
''Danishnama-i ‘ala’i'' (''The Book of Scientific Knowledge''), ed. and trans. P Morewedge, The Metaphysics of Avicenna, London: Routledge and Kegan Paul, 1973.
''Kitab al-Shifa’'' (''The Book of Healing''). (Ibn Sina’s major work on philosophy. He probably began to compose al-Shifa’ in 1014, and completed it in 1020.) Critical editions of the Arabic text have been published in Cairo, 1952–83, originally under the supervision of I. Madkour
''Kitab al-Najat'' (''The Book of Salvation''), trans. F. Rahman, ''Avicenna’s Psychology: An English Translation of Kitab al-Najat, Book II, Chapter VI with Historical-philosophical Notes and Textual Improvements on the Cairo Edition'', Oxford: Oxford University Press, 1952. (The psychology of al-Shifa’.)
''
Hayy ibn Yaqdhan'' a
Persian myth. A
novel called ''Hayy ibn Yaqdhan'', based on Avicenna's story, was later written by
Ibn Tufail (Abubacer) in the 12th century and translated into Latin and English as ''Philosophus Autodidactus'' in the 17th and 18th centuries respectively. In the 13th century,
Ibn al-Nafis wrote his own novel ''Fadil ibn Natiq'', known as ''Theologus Autodidactus'' in the West, as a critical response to ''Hayy ibn Yaqdhan''.
Persian Works
Danishnama-i ‘Alai
Danishnama-i ‘Alai is called "the Book of Knowledge for [Prince] 'Ala ad-Daulah". One of Avicenna's important
Persian work is the Daaneshnaame (literally: the book of knowledge) for Prince 'Ala ad-Daulah (the local
Buyid ruler). The linguist aspects of the Dāneš-nāma and the originality of their Persian vocabulary are of great interest to Iranian philologists. Avicenna created new scientific vocabulary that had not existed before in the modern Persian language. The Dāneš-nāma covers such topics as logic, metaphysics, music theory and other sciences of his time. This book has translated to English by Parwiz Mowewedge.
Andar Danesh-e-Rag
Andar Danesh-e-Rag is called "On the science of the pulse". This book contains nine chapters on the science of the pulse and is condensed synonpsis.
Persian Poetry
Persian poetry from Ibn Sina is recorded in various manuscripts and later anthologies such as
Nozhat al-Majales.
Novels
The Physician
In the book The Physician Noah Gordon tells the illusion of a young English medical apprentice, to learn from the great master of his time. Avicenna also the novel or the path of Isfahan Sinoué Gilbert told from a human perspective Avicenna's biography with its passions and wisdom.
The manuscript of Avicenna (El Manuscrito de Avicena)
More recently, in 2011, the Spanish writer
Ezequiel Teodoro has published a novel,
The manuscript of Avicenna (
El Manuscrito de Avicena), which recreates some moments in the life of the Persian physician.
See also
Abu al-Qasim al-Zahrawi
Al-Qumri
Avicennia, a genus of mangrove named after Ibn Sīnā
Avicenna Research Institute, a biotechnology research institute named after Ibn Sīnā
Ibn Sina Peak - named after the Scientist
Eastern philosophy
Iranian philosophy
Science and technology in Iran
* Ancient Iranian Medicine
*List of Iranian scientists and scholars
Science in medieval Islam
* List of Muslim scientists
* Sufi philosophy
Islamic scholars
Mumijo
References
;Attribution
Further reading
Encyclopedic articles
Primary literature
Avicenne: ''Réfutation de l'astrologie''. Edition et traduction du texte arabe, introduction, notes et lexique par Yahya Michot. Préface d'Elizabeth Teissier (Beirut-Paris: Albouraq, 2006) ISBN 2-84161-304-6.
For a list of other extant works, C. Brockelmann's ''Geschichte der arabischen Litteratur'' (Weimar, 1898), vol. i. pp. 452–458. (XV. W.; G. W. T.)
For Ibn Sina's life, see Ibn Khallikan's ''Biographical Dictionary'', translated by de Slane (1842); F. Wüstenfeld's ''Geschichte der arabischen Aerzte und Naturforscher'' (Göttingen, 1840).
Madelung, Wilferd and Toby Mayer (ed. and tr.), Struggling with the Philosopher: A Refutation of Avicenna’s Metaphysics. A New Arabic Edition and English Translation of Shahrastani's Kitab al-Musara'a.
Secondary literature
* This is, on the whole, an informed and good account of the life and accomplishments of one of the greatest influences on the development of thought both Eastern and Western. [...] It is not as philosophically thorough as the works of D. Saliba, A. M. Goichon, or L. Gardet, but it is probably the best essay in English on this important thinker of the Middle Ages. (Julius R. Weinberg, ''The Philosophical Review'', Vol. 69, No. 2, Apr. 1960, pp. 255–259)
* This is a distinguished work which stands out from, and above, many of the books and articles which have ben written in this century on Avicenna (Ibn Sīnā) (A.D. 980–1037). It has two main features on which its distinction as a major contribution to Avicennan studies may be said to rest: the first is its clarity and readability; the second is the comparative approach adopted by the author [...]. (Ian Richard Netton, ''Journal of the Royal Asiatic Society'', Third Series, Vol. 4, No. 2, July 1994, pp. 263–264)
Y. T. Langermann (ed.), ''Avicenna and his Legacy. A Golden Age of Science and Philosophy'', Brepols Publishers, 2010, ISBN 978-2-503-52753-6
For a new understanding of his early career, based on a newly discovered text, see also: Michot, Yahya, ''Ibn Sînâ: Lettre au vizir Abû Sa'd''. ''Editio princeps'' d'après le manuscrit de Bursa, traduction de l'arabe, introduction, notes et lexique (Beirut-Paris: Albouraq, 2000) ISBN 2-84161-150-7.
* This German publication is both one of the most comprehensive general introductions to the life and works of the philosopher and physician Avicenna (Ibn Sīnā, d. 1037) and an extensive and careful survey of his contribution to the history of science. Its author is a renowned expert in Greek and Arabic medicine who has paid considerable attention to Avicenna in his recent studies [...]. (Amos Bertolacci, ''Isis'', Vol. 96, No. 4, December 2005, p. 649)
Shaikh al Rais Ibn Sina (Special number) 1958-59, Ed. Hakim Syed Zillur Rahman, Tibbia College Magazine, Aligarh Muslim University, Aligarh, India.
Medicine
Edward G. Browne, ''Islamic Medicine'', 2002, Goodword Pub., ISBN 81-87570-19-9
Sprengel, ''Histoire de la Medicine'' (1815)
Philosophy
Amos Bertolacci, ''The Reception of Aristotle's Metaphysics in Avicenna's Kitab al-Sifa'. A Milestone of Western Metaphysical Thought'' (Leiden: Brill 2006)
Dimitri Gutas, ''Avicenna and the Aristotelian Tradition: Introduction to Reading Avicenna's Philosophical Works'' (Leiden: Brill 1988)
Michot, Jean R., ''La destinée de l'homme selon Avicenne'' (Louvain: Aedibus Peeters, 1986) ISBN 978-90-6831-071-9.
Nader El-Bizri, ''The Phenomenological Quest between Avicenna and Heidegger'' (Binghamton, N.Y.: Global Publications SUNY, 2000)
Nader El-Bizri, "Avicenna and Essentialism," ''Review of Metaphysics'', Vol. 54 (June 2001), pp. 753–778
Nader El-Bizri, "Avicenna’s ''De Anima'' between Aristotle and Husserl," in ''The Passions of the Soul in the Metamorphosis of Becoming'', ed. Anna-Teresa Tymieniecka (Dordrecht: Kluwer Academic Publishers, 2003), pp. 67–89
Nader El-Bizri, "Being and Necessity: A Phenomenological Investigation of Avicenna’s Metaphysics and Cosmology," in ''Islamic Philosophy and Occidental Phenomenology on the Perennial Issue of Microcosm and Macrocosm'', ed. Anna-Teresa Tymieniecka (Dordrecht: Kluwer Academic Publishers, 2006), pp. 243–261
Reisman, David C. (ed.), "Before and After Avicenna: Proceedings of the First Conference of the Avicenna Study Group" (Leiden: Brill 2003)
External links
Article on Avicenna in the Encyclopedia Iranica
Avicenna entry by Sajjad H. Rizvi in the ''Internet Encyclopedia of Philosophy''
Avicenna (Ibn-Sina) on the Subject and the Object of Metaphysics with a list of translations of the logical and philosophical works and an annotated bibliography
Online Galleries, History of Science Collections, University of Oklahoma Libraries High resolution images of works by Avicenna in .jpg and .tiff format.
Category:980 births
Category:1037 deaths
Category:11th-century philosophers
Category:Alchemists of medieval Islam
Category:Aristotelian philosophers
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Category:Commentators on Aristotle
Category:Physicians of medieval Islam
Category:People in the history of medicine
Category:Persian philosophers
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