The Honeybee

By Dr. Ibrahim B. Syed

The reader of the Qur'an must have been wondering why Surah 16, An-Nahl or the Bee is named after a lowly creature.

In the scientific language all the honeybees belong to the genus Apis. The honeybee communicates with other honeybee using a dance language, which the scientists have discovered to be very complicated and highly developed. Karl von Frisch of the University of Munich in Germany, in the 1940s first discovered the significance of bees' dances. Once the honeybee discovers a source of food, it returns to the hive and the forager bee recruits other bees through both sound and dances and communicates information about the location of food.

More than 2,000 years ago, Aristotle himself documented the honeybee's ability to recruit her nestmates to a good food source but did not speculate on how the communication took place. It took over 2,000 years to understand the communication system of the bee. Frisch and his followers were able to recognize a pattern in the dance. The forager walks across the vertical sheets of comb hanging in the hive and traces out the shape of a figure eight (8); she pauses in each loop to shake her body from side to side. A few potential recruits chase after the dancer attentively for some time and then fly out on their own toward the target.

In 1943 von Frisch discovered that the direction in which the dancer faced during her waggling run pointed toward the food site in relation to the sun; if she waggled while facing straight upward, toward the 12 on a clockface, then the food could be found in the direction of the sun; if she waggled 60 degrees to the left of 12, facing the 10' 'O' clock, then the food lay 60 degrees to the left of the sun.

In addition, he noticed that how fast the dancer completed her circuits corresponded to the distance between the hive and the feeding site; the closer the food, the more frenzied her pace. Von Frisch and his colleagues made detailed accounts of the dance language. They could observe the dance, decipher its meaning and then locate the food supply of which it spoke. This is a stunning accomplishment for scientists.

The sounds it makes with its wings are truly an essential part of the honeybee's dance language. The dancer bee emits sound signals that help the dance followers to find out where the dancer is located and how she is moving, which in turn offers them critical information regarding the direction and distance to the feeding site. The dance attenders receive these signals through the Johnston's organs located in their antennae, which are always held near the dancer. Because these organs are bilateral-one on the left and one on the dance followers can use them to judge their position with respect to the dancer and therefore understand the direction to the food.

At the same time, the followers emit sounds that vibrate the comb. The forager stops her dance when she receives these signals and delivers samples of the food she has collected. These appetizers give the dance followers additional information about the taste, smell and quality of the food source. The bees attend the dancing for a while and then fly out to determine the food source on their own. If they are fortunate, they will find the food. If they fail, they will return to the nest and try again.

The exactness of the Qur'anic words in their reference to scientific phenomena occurs in Surah 16, ayath 68, which states:

"And Thy Lord inspired the bee, saying: Choose thou habitations in the hills and in the trees and in (men's) habitations."

Yusuf Ali says: "Auha: wahyan ordinarily means inspiration, the Message put into the mind or heart by Allah. Here the Bee's instinct is refereed to Allah's teaching, which id undoubtedly is.

In the above verse, Allah (SWT) is commanding the bee to choose (to make a hive) a dwelling in the hills, trees and other places which man has built. In Arabic, the verb assumes a specific form when it is in the imperative form and can be either masculine or feminine according to the context.

In the Qur'an, the Arabic command of ittakhizee (go choose) is given to the bee in the feminine imperative form. It is shockingly true that only the female bee finds a new home. The queen and the workers are the heart of the hive: the male drones exist solely to mate with the queen. Thus the Qur'an makes a very accurate statement when it refers only the female bee as the one which is being commanded from Allah (SWT) to make a dwelling.

As we know the Qur'an is a book of Guidance and the theme of the Qur'an is "mankind" and it is not a book of science. However over 750 verses are found in the Qur'an which relate to scientific phenomena as an argument to invite the believers to the Truth. The noted scholar Afzalur Rahman in elaborating the interconnectedness between Science and the Qur'an says: "The Qur'an clearly establishes the fact that science and Qur'an are two aspects of the same Truth and there is no contradiction between them... Thus the Qur'an introduces new dimensions into the study of religion and its philosophy and seeks to bring men of knowledge (scientists) closer to Allah through the study of His Attributes and manifestations in the material world. "

In another verse in Surah 16, An-Nahl, the Qur'an says:

Then eat of all fruits (all produce of the earth), and follow the ways of thy Lord, made smooth (for thee). There cometh forth from their bellies a drink of hues (varying colors), wherein is healing for mankind. Lo! herein is indeed portent(Sign) for people who reflect.......... 16:69

Allama Yusuf Ali in his commentary states "The bee assimilates the juice of various kinds of flowers and fruit, and forms within its body the honey, which it stores in its cells of wax. The different kinds of food from which it makes its honey give different colors to the honey, e.g., it is dark-brown, light-brown, yellow, white, and so on. The taste and flavor also varies, as in the case of heather honey, the honey formed from scented flowers, and so on. As food it is sweet and wholesome, and it is used in medicine. Note that while the instinctive individual acts are described in the singular number, the produce of "their bodies" is described in the plural, as the result of their collective effort.

HONEY: A HEALING FOR MANKIND

As stated in 16:69, there is a natural healing power in honey of great benefit to mankind. This has been documented in the world's oldest medical literature. For example the Sumerans and the Egyptian physicians about 4000 years ago used honey to treat internal and external wounds, ulcers, diseases of the eyes, lungs, skin and in particular, diseases of the stomach and intestines. The Chinese, Indians, Greeks and Romans have recorded similar practices. Hippocrates, the father of Western Medicine, used honey to treat a number of diseases. Ibn Sina, the Prince among Muslim physicians listed several beneficial uses of honey in his monumental work of medicine "The Canon of Medicine". Among the uses he listed are: preservation of youthfulness, improvement of memory, a feeling of happiness, assists in digestion, increase in appetite and helps promote in one's rendering of speech.

Since 1937 it has been known that honey has antibacterial activity due to its high sugar concentration (76 g/100 ml), acidity (Ph=3.6-4.2) and the organic antibacterial compounds present in honey. The composition of honey is very complex containing a variety of biochemical compounds including vitamins, amino acids, enzymes, hormones, etc., It is used in the treatment of wounds and ulcers. Surgeons and physicians are suing honey in the treatment of gunshot wounds, ulcers, surface wounds, cuts and abrasions, in the treatment of gastroenteritis (diarrhoea). In the academia a number of Ph.D. dissertations have been written on honey, particularly on its biochemical properties. Endocrinologists say that glucose levels in blood of healthy volunteers are increased whereas among the diabetic patients it is decreased after consumption of honey.

SMARTNESS OF THE HONEYBEE

How smart is the common honeybee? It is far smarter than today's most powerful supercomputers. Modern computers can attain the amazing processing speed of 16 gigaflops or 16 billion simple arithmetic operations, such as adding two numbers, each second. On the otherhand the bee's brain shows that the lowly honeybee performs the equivalent of ten trillion operations per second. Very astounding!

In the spring of 1983, the Smithsonian Institution conducted a symposium on animal intelligence at which one of the researchers was Princeton ethologist James L. Gould, an internationally renowned expert on honeybee behavior. In one of his experiments he wanted to observe the ways bee locate new food sources. To achieve this Gould provided honeybees with desirable food sources. Once they were accustomed to feeding at the stations, he moved the food sources by a factor of 1.25 the distance of the previous move.

What Gould found was that after a few such moves the honeybees no longer had to search for the new location, but anticipated Gould's behavior so accurately that he found the bees circling the new location before he had even arrived and waiting for their food. The honeybees were able to construct quite a complex simulation of reality in their tiny brains (less than 10 milligrams) and deduce from past experience where Gould was going to place the food next.

The bee does all of this while consuming a lot less power than a computer. According to Byte magazine, "a honeybee's brain dissipates less than 10 microwatts of energy... It is superior by about seven orders of magnitude to the most efficient of today's manufactured computers." What it means is that over ten million bee brains can operate on the power needed for a single 100-watt light bulb. The most efficient of today's computers uses hundreds of millions of times more energy to perform an equivalent number of operations.

As shown above they are able to navigate across long distances to locate sources of nectar and then return to the hive and communicate directions to fellow bees. They prepare special food items such as royal jelly and beebread, for their young. They protect their home by recognizing and repelling intruders. They regularly remove garbage and other refuse from their hive. They control the climate in the hive by fanning the fresh air and sprinkling water during summer and by clustering together for warmth in the winter. When their hives become overcrowded, they are smart enough to know that some have to leave and establish new colonies and live independently. Yet, supercomputers require teams of programmers, engineers, and technicians. Bees truly are a marvel of Allah (SWT)'s creation. Is there any doubt why Surah 16, the Qur'an is called NAHL.

This article is based on Jumuah Khutbahs (Friday Sermons) the author delivered at the Islamic Center of Madison, Wisconsin, Al-Fajr Mosque, Indianapolis and Islamic Center of Louisville, Louisville, Kentucky. The author is considered to be the world's foremost exponent for the interpretation of Al-Qur'an in the light of modern knowledge. The author encourages feed back from the readers.

FURTHER READING

1. Kirchner, W.H. and Towne, W.F.: The Sensory Basis of the Honeybee's Dance Language. Scientific American June 1994
2. Kamaruddin, M.Y.: Honey: a healing for mankind throughout the ages. THE FOUNTAIN July-Sep, 1993, Vol.1, No.3, pp. 4-6.
3. Bee versus Computer, AWAKE February 8, 1995, pp.24-25.
4. Michael Talbot, " BEYOND THE QUANTUM " (New York, Macmillian Publishing Company) 1990, pp. 178-179
   

Dr. Ibrahim B. Syed, Clinical Professor of Medicine, University of Louisville School of Medicine. Louisville, KY 40292 and President, Islamic Research Foundation International, Inc., 7102 W. Shefford Lane Louisville, KY 40242-6462.

Source: The Honeybee - www.irfi.org

Islamic Medicine: 1000 Years Ahead of Its Times

By Ibrahim B. Syed

SUMMARY

Within a century after the death of Prophet Muhammad (peace be upon him-pbuh) the Muslims not only conquered new lands, but also became scientific innovators with originality and productivity. They hit the source ball of knowledge over the fence to Europe.

By the ninth century, Islamic medical practice had advanced from talisman and theology to hospitals with wards, doctors who had to pass tests, and the use of technical terminology. The then Baghdad General Hospital incorporated innovations which sound amazingly modern. The fountains cooled the air near the wards of those afflicted with fever; the insane were treated with gentleness; and at night the pain of the restless was soothed by soft music and storytelling. The prince and pauper received identical attention; the destitute upon discharge received five gold pieces to sustain them during convalescence.

While Paris and London were places of mud streets and hovels, Baghdad, Cairo and Cardboard had hospitals open to both male and female patients; staffed by attendants of both sexes. These medical centers contained libraries pharmacies, the system of interns, externs, and nurses. There were mobile clinics to reach the totally disabled, the disadvantaged and those in remote areas. There were regulations to maintain quality control on drugs.

Pharmacists became licensed professionals and were pledged to follow the physician's prescriptions. Legal measures were taken to prevent doctors from owning or holding stock in a pharmacy. The extent to which Islamic medicine advanced in the fields of medical education, hospitals, bacteriology, medicine, anesthesia, surgery, pharmacy, ophthalmology, psychotherapy and psychosomatic diseases are presented briefly.

INTRODUCTION

Prophet Muhammad (peace be upon him) who is ranked number one by Michael Hart (1), a Jewish scholar, in his book The 100: The Most Influential Persons in History, was able to unite the Arab tribes who had been tom by revenge, rivalry, and internal fights, and produced a strong nation acquired and ruled simultaneously, the two known empires at that time, namely the Persian and Byzantine Empires. The Islamic Empire extended from the Atlantic Ocean on the West to the borders of China on the East. Only 80 years after the death of their Prophet, the Muslims crossed to Europe to rule Spain for more than 700 years. The Muslims preserved the cultures of the conquered lands. However when the Islamic Empire became weak, most of the Islamic contributions in art and science were destroyed. The Mongols bunt Baghdad (1258 A.D.) out of barbarism, and the Spaniards demolished most of the Islamic heritage in Spain out of hatred.

The Islamic Empire for more than 1000 years remained the most advanced and civilized nation in the world. This is because Islam stressed the importance and respect of learning, forbade destruction, developed in Muslims the respect for authority and discipline, and tolerance for other religions. The Muslims recognized excellence and hungering intellectually, were avid for the wisdom of the world of Galen, Hippocrates, Rufus of Ephesus, Oribasius, Discorides and Paul of Aegina.

By the tenth century their zeal and enthusiasm for learning resulted in all essential Greek medical writings being translated into Arabic in Damascus, Cairo, and Baghdad. Arabic became the International Language of learning and diplomacy. The center of scientific knowledge and activity shifted eastward, and Baghdad emerged as the capital of the scientific world. The Muslims became scientific innovators with originality and productivity.

Islamic medicine is one of the most famous and best known facets of lslamic civilization, and in which the Muslims most excelled.(2) The Muslims were the great torchbearers of international scientific research.(3) They hit the source ball of knowledge over the fence to Europe. In the words of Campbell,(4) "The European medical system is Arabian not only in origin but also in its structure. The Arabs are the intellectual forebears of the Europeans."

The aim of this paper is to prove that the Islamic Medicine was 1000 years ahead of its times. The paper covers areas such as medical education, hospitals, bacteriology, medicine, anesthesia, surgery, opthalmology, pharmacy, and psychotherapy.

MEDICAL EDUCATION

In 636 A.D., the Persian City of Jundi-Shapur, which originally meant beautiful garden, was conquered by the Muslims with its great university and hospital intact. Later the Islamic medical schools developed on the Jundi-Shapur pattern. Medical education was serious and systematic. Lectures and clinical sessions included in teaching were based on the apprentice system.

The advice given by Ali ibnul-Abbas (Haly Abbas: -994 -A.D.) to medical students is as timely today as it was then'. "And of those things which were incumbent on the student of this art (medicine) are that he should constantly attend the hospitals and sick houses; pay unremitting attention to the conditions and circumstances of their intimates, in company with the most astute professors of medicine, and inquire frequently as to the state of the patients and symptoms apparent in them, bearing in mind what he has read about these variations, and what they indicate of good or evil."

Razi (Rhazes: 841-926 A.D.) advised the medical students while they were seeing a patient to bear in mind the classic symptoms of a disease as given in text books and compare them with what they found (6).

The ablest physicians such as Razi (Al-Rhazes), Ibn-Sina (Avicenna: 980-1037 A.D.) and Ibn Zuhr (Avenzoar: 116 A.D.) performed the duties of both hospital directors and deans of medical schools at the same time. They studied patients and prepared them for student presentation. Clinical reports of cases were written and preserved for teaching'. Registers were maintained.

Training in Basic Sciences
Only Jundi-Shapur or Baghdad had separate schools for studying basic sciences. Candidates for medical study received basic preparation from private tutors through private lectures and self study.

In Baghdad anatomy was taught by dissecting the apes, skeletal studies, and didactics. Other medical schools taught anatomy through lectures and illustrations. Alchemy was once of the prerequisites for admission to medical school. The study of medicinal herbs and pharmacognosy rounded out the basic training. A number of hospitals maintained barbel gardens as a source of drugs for the patients and a means of instruction for the students.

Once the basic training was completed the candidate was admitted as an apprentice to a hospital where, at the beginning, he was assigned in a large group to a young physician for indoctrination, preliminary lectures, and familiarization with library procedures and uses. During this preclinical period, most of the lectures were on pharmacology and toxicology and the use of antidotes.

Clinical training
The next step was to give the student full clinical training. During this period students were assigned in small groups to famous physicians and experienced instructors, for ward rounds, discussions, lectures, and reviews. Early in this period therapeutics and pathology were taught. There was a strong emphasis on clinical instruction and some Muslim physicians contributed brilliant observations that have stood the test of time. As the students progressed in their studies they were exposed more and more to the subjects of diagnosis and judgment.

Clinical observation and physical examination were stressed. Students (clinical clerks) were asked to examine a patient and make a diagnosis of the ailment. Only after they had failed would the professor make the diagnosis himself. While performing physical examination, the students were asked to examine and report six major factors: the patients' actions, excreta, the nature and location of pain, and swelling and effuvia of the body. Also noted was color and feel of the skin- whether hot, cool, moist, dry, flabby. Yellowness in the whites of the eye (jaundice) and whether or not the patient could bend his back (lung disease) was also considered important (8).

After a period of ward instructions, students, were assigned to outpatient areas. After examining the patients they reported their findings to the instructors. After discussion, treatment was decided on and prescribed. Patients who were too ill were admitted as inpatients. The keeping of records for every patient was the responsibility of the students.

Curriculum
There was a difference in the clinical curriculum of different medical schools in their courses; however the mainstay was usually internal medicine. Emphasis was placed on clarity and brevity in describing a disease and the separation of each entity. Until the time of Ibn Sina the description of meningitis was confused with acute infection accompanied by delirium. Ibn Sina described the symptoms of meningitis with such clarity and brevity that there is very little that can be added after 1000 years. Surgery was also included in the curriculum. After completing courses, some students specialized under famous specialists. Some others specialized while in clinical training.

According to Elgood (9) many surgical procedures such as amputation, excision of varicose veins and hemorrhoids were required knowledge. Orthopedics was widely taught, and the use of plaster of Paris for casts after reduction of fractures was routinely shown to students. This method of treating fractures was rediscovered in the West in 1852.

Although ophthalmology was practiced widely, it was not taught regularly in medical schools. Apprenticeship to an eye doctor was the preferred way of specializing in ophthalmology. Surgical treatment of cataract was very common. Obstetrics was left to midwives. Medical practitioners consulted among themselves and with specialists. Ibn Sina and Hazi both widely practiced and taught psychotherapy.

After completing the training, the medical graduate was not ready to enter practice, until he passed the licensure examination. It is important to note that there existed a Scientific Association which had been formed in the hospital of Mayyafariqin to discuss the conditions and diseases of the patients.

Licensing of Physicians
In Baghdad in 931 A.D. Caliph Al-Muqtadir learned that a patient had died as the result of a physician's error. There upon he ordered his chief physician, Sinan-ibn Thabit bin Qurrah to examine all those who practiced the art of healing. In the first year of the decree more than 860 were examined in Baghdad alone. From that time on, licensing examinations were required and administered in various places. Licensing Boards were set up under a government official called Muhtasib or inspector general. The Muhtasib also inspected weights and measures of traders and pharmacists. Pharmacists were employed as inspectors to inspect drugs and maintain quality control of drugs sold in a pharmacy or apothecary.

What the present Food and Drug Administration (FDA) is doing in America today was done in Islamic medicine 1000 years ago. The chief physician gave oral and practical examinations, and if the young physician was successful, the Muhtasib administered the Hippocratic oath and issued a license. After 1000 years licensing of physicians has been implemented in the West, particularly in America by the State Licensing Board in Medicine. For specialists we have American Board of Medical Specialities such as in Medicine, Surgery, Radiology, etc.

European medical schools followed the pattern set by the Islamic medical schools and even in the early nineteenth century, students at the Sorbonne could not graduate without reading Ibn Sina's Qanun (Cannon). According to Razi a physician had to satisfy two condition for selection: firs0y, he was to be fully conversant with the new and the old medical literature and secondly, he must have worked in a hospital as house physician.

HOSPITALS

The development of efficient hospitals was an outstanding contribution of Islamic medicine (7). 'ne hospitals served all citizens free without any regard to their color, religion, sex, age or social status. The hospitals were run by government and the directors of hospitals were physicians.

Hospitals and separate wards for male patients and female patients. Each ward was furnished with a nursing staff and porters of the sex of the patients to be treated therein. Different diseases such as fever, wounds, infections, mania, eye conditions, cold diseases, diarrhea, and female disorders were allocated different wards. Convalescents had separate sections within them. Hospitals provided patients with unlimited water supply and with bathing facilities. Only qualified and licensed physicians were allowed by law to practice medicine. The hospitals were teaching hospitals educating medical students. They had housing for students and house-staff. They contained pharmacies dispensing free drugs to patients. Hospitals had their own conference room and expensive libraries containing the most up-to-date books.

According to Haddad, the library of the Tulum Hospital which was founded in Cairo in 872 A.D. (1100 years ago) had 100,000 books. Universities, cities and hospitals acquired large libraries (Mustansiriyya University in Baghdad contained 80,000 volumes; the library of Cordova 600,000 volumes; that of Cairo 2,000,000 and that of Tripoli 3,000,000 books), physicians had their own extensive personal book collections, at a time when printing was unknown and book editing was done by skilled and specialized scribes putting in long hours of manual labour.

For the first time in history, these hospitals kept records of patients and their medical care.

From the point of view of treatment the hospital was divided into an out- patient department and an inpatient department. The system of the in-patient department differed only slightly from that of today. At tile Tulun hospital, on admission the patients were given special apparel while their clothes, money, and valuables were stored until the time of their discharge. On discharge, each patient - received five gold pieces to support himself until he could return to work.

The hospital and medical school at Damascus had elegant rooms and an extensive library. Healthy people are said to have feigned illness in order to enjoy its cuisine. There was a separate hospital in Damascus for lepers, while, in Europe, even six centuries later, condemned lepers were burned to death by royal decree.

The Qayrawan Hospital (built in 830 A.D. in Tunisia) was characterized by spacious separate wards, waiting rooms for visitors and patients, and female nurses from Sudan, an event representing the first use of nursing in Arabic history. The hospital also provided facilities for performing prayers.

The Al-Adudi hospital (built in 981 A.D. in Baghdad) was furnished with die best equipment and supplies known at the time. It had interns, residents, and 24 consultants attending its professional activities, An Abbasid minister, Ali ibn Isa, requested the court physician, Sinan ibn Thabit, to organize regular visiting of prisons by medical officers (14). At a time when paris and London were places of mud streets and hovels, Baghdad, Cairo, and Cordova had hospitals which incorporated innovations which sound amazingly modern. It was chiefly in the humaneness of patient care, however, that the hospitals of Islam excelled. Near the wards of those afflicted with fever, fountains cooled the air; the insane were treated with gentleness; and at night music and storytelling soothed the patients

The Bimaristans (hospitals) were of two types - the fixed and the mobile. The mobile hospitals were transported upon beasts of burden and were erected from time to time as required. The physicians in the mobile clinics were of the same standing as those who served the fixed hospitals. Similar moving hospitals accompanied the armies in the field. The field hospitals were well equipped with medicaments, instruments, tents and a staff of doctors, nurses, and orderlies. The traveling clinics served the totally disabled, the disadvantaged and those in remote areas. These hospitals were also used by prisoners, and by the general public,particularly in times of epidemics.

BACTERIOLOGY

Al-Razi was asked to choose a site for a new hospital when he came to Baghdad. First he deduced which was the most hygienic area by observing where the fresh pieces of meat he had hung in various parts of the city decomposed least quickly.

Ibn Sina stated explicitly that the bodily secretion is contaminated by foul foreign earthly body before getting the infection. Ibn Khatima stated that man is surrounded by minute bodies which enter the human system and cause disease.

In the middle of the fourteenth century "black death" was ravaging Europe and before which Christians stood helpless, considering it an act of God.

At that time Ibn al Khatib of Granada composed a treatise in the defense of the theory of infection in the following way:

To those who say, "How can we admit the possibility of infection while the religious law denies it?" We reply that the existence of contagion is established by experience, investigation, the evidence of the senses and trustworthy reports. These facts constitute a sound argument. The fact of infection becomes clear to the investigator who notices how he who establishes contact with the afflicted gets the disease, whereas he who is not in contact remains safe, and how transmission is effected through garments, vessels and earrings.

Al-Razi wrote the first medical description of smallpox and measles - two important infectious diseases. He described the clinical difference between the two diseases so vividly that nothing since has been added. Ibn Sina suggested the communicable nature of tuberculosis. He is said to have been the first to describe the preparation and properties of sulphuric acid and alcohol. His recommendation of wine as the best dressing for wounds was very popular in medieval practice. However Razi was the first to use silk sutures and alcohol for hemostatis. He was the first to use alcohol as an antiseptic.

ANESTHESIA

Ibn Sina originated the idea of the use of oral anesthetics. He recognized opium as the most powerful mukhadir (an intoxicant or drug). Less powerful anesthetics known were mandragora, poppy, hemlock, hyoscyamus, deadly nightshade (belladonna), lettuce seed, and snow or ice cold water. The Arabs invented the soporific sponge which was the precursor of modem anesthesia. It was a sponge soaked with aromatics and narcotics and held to the patient's nostrils.

The use of anesthesia was one of the reasons for the rise of surgery in the Islamic world to the level of an honourable speciality, while in Europe, surgery was belittled and practiced by barbers and quacks. The Council of Tours in 1163 A.D. declared Surgery is to be abandoned by the schools of medicine and by all decent physicians." Burton stated that "anesthetics have been used in surgery throughout the East for centuries before ether and chloroform became the fashion in civilized West."

SURGERY

Al-Razi is attributed to be the first to use the seton in surgery and animal gut for sutures.

Abu al-Qasim Khalaf Ibn Abbas Al-Zahrawi (930-1013 A.D.) known to the West as Abulcasis, Bucasis or Alzahravius is considered to be the most famous surgeon in Islamic medicine. In his book Al-Tasrif, he described hemophilia for the first time in medical history. The book contains the description and illustration of about 200 surgical instruments many of which were devised by Zahrawi himself. In it Zahrawi stresses the importance of the study of Anatomy as a fundamental prerequisite to surgery. He advocates the re implantation of a fallen tooth and the use of dental prosthesis carved from cow's bone, an improvement over the wooden dentures worn by the first President of America George Washington seven centuries later.

Zahrawi appears to be the first surgeon in history to use cotton (Arabic word) in surgical dressings in the control of hemorrhage, as padding in the splinting of fractures, as a vaginal padding in fractures of the pubis and in dentistry. He introduced the method for the removal of kidney stones by cutting into the urinary bladder. He was the first to teach the lithotomy position for vaginal operations. He described tracheotomy, distinguished between goiter and cancer of the thyroid, and explained his invention of a cauterizing iron which he also used to control bleeding. His description of varicose veins stripping, even after ten centuries, is almost like modern surgery. In orthopedic surgery he introduced what is called today Kocher's method of reduction of shoulder dislocation and patelectomy, 1,000 years before Brooke reintroduced it in 1937.

Ibn Sina's description of the surgical treatment of cancer holds true even today after 1,000 years. He says the excision must be wide and bold; all veins running to the tumor must be included in the amputation. Even if this is not sufficient, then the area affected should be cauterized.

The surgeons of Islam practiced three types of surgery: vascular, general, and orthopedic, Ophthalmic surgery was a speciality which was quite distinct both from medicine and surgery. They freely opened the abdomen and drained the peritoneal cavity in the approved modern style. To an unnamed surgeon of Shiraz is attributed the first colostomy operation. Liver abscesses were treated by puncture and exploration.

Surgeons all over the world practice today unknowingly several surgical procedures that Zahrawi introduced 1,000 years ago.

MEDICINE

The most brilliant contribution was made by Al-Razi who differentiated between smallpox and measles, two diseases that were hitherto thought to be one single disease. He is credited with many contributions, which include being the first to describe true distillation, glass retorts and luting, corrosive sublimate, arsenic, copper sulfate, iron sulphate, saltpeter, and borax in the treatment of disease. He introduced mercury compounds as purgatives (after testing them on monkeys); mercurial ointments and lead ointment." His interest in urology focused on problems involving urination, venereal disease, renal abscess, and renal and vesical calculi. He described hay-fever or allergic rhinitis.

Some of the Arab contributions include the discovery of itch mite of scabies (Ibn Zuhr), anthrax, ankylostoma and the guinea worm by Ibn Sina and sleeping sickness by Qalqashandy. They described abscess of the mediastinum. They understood tuberculosis and pericarditis.

Al Ash'ath demonstrated gastric physiology by pouring water into the mouth of an anesthetized lion and showed the distensibility and movements of the stomach, preceding Beaumont by about 1,000 years" Abu Shal al- Masihi explained that the absorption of food takes place more through the intestines than the stomach. Ibn Zuhr introduced artificial feeding either by gastric tube or by nutrient enema. Using the stomach tube the Arab physicians performed gastric lavage in case of poisoning. Ibn Al-Nafis was the first to discover pulmonary circulation.

Ibn Sina in his masterpiece Al-Quanun (Canon), containing over a million words, described complete studies of physiology, patlhology and hygiene. He specifically discoursed upon breast cancer, poisons, diseases of the skin, rabies, insomnia, childbirth and the use of obstetrical forceps, meningitis, amnesia, stomach ulcers, tuberculosis as a contagious disease, facial tics, phlebotomy, tumors, kidney diseases and geriatric care. He defined love as a mental disease.

OPHTHALMOLOGY

The doctors of Islam exhibited a high degree of proficiency and certainly were foremost in the treatment of eye diseases. Words such as retina and cataract are of Arabic origin. In ophthalmology and optics lbn al Haytham (965-1039 A.D.) known to the West as Alhazen wrote the Optical Thesaurus from which such worthies as Roger Bacon, Leonardo da Vinci and Johannes Kepler drew theories for their own writings.

In his Thesaurus he showed that light falls on the retina in the same manner as it falls on a surface in a darkened room through a small aperture, thus conclusively proving that vision happens when light rays pass from objects towards the eye and not from the eye towards the objects as thought by the Greeks. He presents experiments for testing the angles of incidence and reflection, and a theoretical proposal for magnifying lens (made in Italy three centuries later). He also taught that the image made on the retina is conveyed along the optic nerve to the brain.

Razi was the first to recognize the reaction of the pupil to light and Ibn Sina was the first to describe the exact number of extrinsic muscles of the eyeball, namely six. The greatest contribution of Islamic medicine in practical ophthalmology was in the matter of cataract. The most significant development in the extraction of cataract was developed by Ammar bin Ali of Mosul, who introduced a hollow metallic needle through the sclerotic and extracted the lens by suction. Europe rediscovered this in the nineteenth century.

PHARMACOLOGY

Pharmacology took roots in Islam during the 9th century. Yuhanna bin Masawayh (777-857 A.D.) started scientific and systematic applications of therapeutics at the Abbasids capital. His students Hunayn bin Ishaq al-lbadi (809-874 A.D.) and his associates established solid foundations of Arabic medicine and therapeutics in the ninth century. In his book al-Masail Hunayn outlined methods for confirming the pharmacological effectiveness of drugs by experimenting with them on humans. He also explained the importance of prognosis and diagnosis of diseases for better and more effective treatment.

Pharmacy became an independent and separate profession from medicine and alchemy. With the wild sprouting of apothecary shops, regulations became necessary and imposed to maintain quality control." The Arabian apothecary shops were regularly inspected by a syndic (Muhtasib) who threatened the merchants with humiliating corporal punishments if they adulterated drugs." As early as the days of al-Mamun and al-Mutasim pharmacists had to pass examinations to become licensed professionals and were pledged to follow the physician's prescriptions. Also by this decree, restrictive measures were legally placed upon doctors, preventing them from owning or holding stock in a pharmacy.

Methods of extracting and preparing medicines were brought to a high art, and their techniques of distillation, crystallization, solution, sublimation, reduction and calcination became the essential processes of pharmacy and chemistry. With the help of these techniques, the Saydalanis (pharmacists) introduced new drugs such as camphor, senna, sandalwood, rhubarb, musk, myrrh, cassia, tamarind, nutmeg, alum, aloes, cloves, coconut, nuxvomica, cubebs, aconite, ambergris and mercury.

The important role of the Muslims in developing modern pharmacy and chemistry is memorialized in the significant number of current pharmaceutical and chemical terms derived from Arabic: drug, alkali, alcohol, aldehydes, alembic, and elixir among others, not to mention syrups and juleps. They invented flavorings extracts made of rose water, orange blossom water, orange and lemon peel, tragacanth and other attractive ingredients. Space does not permit me to list the contributions to pharmacology and therapeutics, made by Razi, Zahrawi, Biruni, Ibn Butlan, and Tamimi.

PYCHOTHERAPY

From freckle lotion to psychotherapy- such was the range of treatment practiced by the physicians of Islam. Though freckles continue to sprinkle the skin of 20th century man, in the realm of psychosomatic disorders both al-Razi and Ibn Sina achieved dramatic results, antedating Freud and Jung by a thousand years. When Razi was appointed physician-in-chief to the Baghdad Hospital, he made it the, first hospital to have a ward exclusively devoted to the mentally ill."

Razi combined psychological methods and physiological explanations, and he used psychotherapy in a dynamic fashion, Razi was once called in to treat a famous caliph who had severe arthritis. He advised a hot bath, and while the caliph was bathing, Razi threatened him with a knife, proclaiming he was going to kill him. This deliberate provocation increased the natural caloric which thus gained sufficient strength to dissolve the already softened humours, as a result the caliph got up from is knees in the bath and ran after Razi. One woman who suffered from such severe cramps in her joints that she was unable to rise was cured by a physician who lifted her skirt, thus putting her to shame. "A flush of heat was produced within her which dissolved the rheumatic humour."

The Arabs brought a refreshing spirit of dispassionate clarity into psychiatry. They were free from the demonological theories which swept over the Christian world and were therefore able to make clear cut clinical observations on the mentally ill.

Najab ud din Muhammad'", a contemporary of Razi, left many excellent descriptions of various mental diseases. His carefully compiled observation on actual patients made up the most complete classification of mental diseases theretofore known." Najab described agitated depression, obsessional types of neurosis, Nafkhae Malikholia (combined priapism and sexual impotence). Kutrib (a form of persecutory psychosis), Dual-Kulb (a form of mania).

Ibn Sina recognized 'physiological psychology' in treating illnesses involving emotions. From the clinical perspective Ibn Sina developed a system for associating changes in the pulse rate with inner feelings which has been viewed as anticipating the word association test of Jung. He is said to have treated a terribly ill patient by feeling the patient's pulse and reciting aloud to him the names of provinces, districts, towns, streets, and people. By noticing how the patient's pulse quickened when names were mentioned Ibn Sina deduced that the patient was in love with a girl whose home Ibn Sina was able to locate by the digital examination. The man took Ibn Sina's advice, married the girl, and recovered from his illness.

It is not surprising to know that at Fez, Morocco, an asylum for the mentally ill had been built early in the 8th century, and insane, asylums were built by the Arabs also in Baghdad in 705 A.D., in Cairo in 800 A.D., and in Damascus and Aleppo in 1270 A.D. In addition to baths, drugs, kind and benevolent treatment given to the mentally ill, musico-therapy and occupational therapy were also employed. These therapies were highly developed. Special choirs and live music bands were brought daily to entertain the patients by providing singing and musical performances and comic performers as well.

CONCLUSION

1,000 years ago lslamic medicine was the most advanced in the world at that time. Even after ten centuries, the achievements of Islamic medicine look amazingly modern. 1,000 years ago the Muslims were the great torchbearers of international scientific research. Every student and professional from each country outside the Islamic Empire, aspired, yearned, a dreamed to go to the lslamic universities to learn, to work, to live and to lead a comfortable life in an affluent and most advanced and civilized society.

Today, in this twentieth century, the United States of America has achieved such a position. The pendulum can swing back. Fortunately Allah has given a bounty to many Islamic countries - an income over 100 billion dollars per year. Hence Islamic countries have the opportunity and resources to make Islamic science and medicine number one in the world, once again.


Dr. Ibrahim B. Syed, Ph.D is Clinical Professor of Medicine, University of Louisville School of Medicine, Louisville, KY 40292 and President, Islamic Research Foundation International, Inc, 7102 W. Shefford Lane, Louisville, KY 40242-6462.

Source: IslamforToday

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Ibn Sina (Avicenna) - Doctor of Doctors

By Dr. Monzur Ahmed

Ibn Sina was born in 980 C.E. in the village of Afshana near Bukhara which today is located in the far south of Russia. His father, Abdullah, an adherent of the Ismaili sect, was from Balkh and his mother from a village near Bukhara.

In any age Ibn Sina, known in the West as Avicenna, would have been a giant among giants. He displayed exceptional intellectual prowess as a child and at the age of ten was already proficient in the Qur'an and the Arabic classics. During the next six years he devoted himself to Muslim Jurisprudence, Philosophy and Natural Science and studied Logic, Euclid, and the Almeagest.

He turned his attention to Medicine at the age of 17 years and found it, in his own words, "not difficult". However he was greatly troubled by metaphysical problems and in particular the works of Aristotle. By chance, he obtained a manual on this subject by the celebrated philosopher al-Farabi which solved his difficulties.

By the age of 18 he had built up a reputation as a physician and was summoned to attend the Samani ruler Nuh ibn Mansur (reigned 976-997 C.E.), who, in gratitude for Ibn Sina's services, allowed him to make free use of the royal library, which contained many rare and even unique books. Endowed with great powers of absorbing and retaining knowledge, this Muslim scholar devoured the contents of the library and at the age of 21 was in a position to compose his first book.

At about the same time he lost his father and soon afterwards left Bukhara and wandered westwards. He entered the services of Ali ibn Ma'mun, the ruler of Khiva, for a while, but ultimately fled to avoid being kidnapped by the Sultan Mahmud of Ghazna. After many wanderings he came to Jurjan, near the Caspian Sea, attracted by the fame of its ruler, Qabus, as a patron of learning. Unfortunately Ibn Sina's arrival almost coincided with the deposition and murder of this ruler. At Jurjan, Ibn Sina lectured on logic and astronomy and wrote the first part of the Qanun, his greatest work.

Abu Ali al-Husain ibn Abdullah ibn Sina (980-1037 C.E.)

He then moved to Ray, near modern Teheran and established a busy medical practice. When Ray was besieged, Ibn Sina fled to Hamadan where he cured Amir Shamsud-Dawala of colic and was made Prime Minister. A mutiny of soldiers against him caused his dismissal and imprisonment, but subsequently the Amir, being again attacked by the colic, summoned him back, apologised and reinstated him! His life at this time was very strenuous: during the day he was busy with the Amir's services, while a great deal of the night was passed in lecturing and dictating notes for his books. Students would gather in his home and read parts of his two great books, the Shifa and the Qanun, already composed.

Following the death of the Amir, Ibn Sina fled to Isfahan after a few brushes with the law, including a period in prison. He spent his final years in the services of the ruler of the city, Ala al-Daula whom he advised on scientific and literary matters and accompanied on military campaigns.

Friends advised him to slow down and take life in moderation, but this was not in character. "I prefer a short life with width to a narrow one with length", he would reply. Worn out by hard work and hard living, Ibn Sina died in 1036/1 at a comparatively early age of 58 years. He was buried in Hamadan where his grave is still shown.

Al-Qifti states that Ibn Sina completed 21 major and 24 minor works on philosophy, medicine, theology, geometry, astronomy and the like. Another source (Brockelmann) attributes 99 books to Ibn Sina comprising 16 on medicine, 68 on theology and metaphysics 11 on astronomy and four on verse. Most of these were in Arabic; but in his native Persian he wrote a large manual on philosophical science entitled Danish-naama-i-Alai and a small treatise on the pulse.

His most celebrated Arabic poem describes the descent of Soul into the Body from the Higher Sphere. Among his scientific works, the leading two are the Kitab al-Shifa (Book of Healing), a philosophical encyclopaedia basedupon Aristotelian traditions and the al-Qanun al-Tibbwhich represents the final categorisation of Greco-Arabian thoughts on Medicine.

Of Ibn Sina's 16 medical works, eight are versified treatises on such matter as the 25 signs indicating the fatal termination of illnesses, hygienic precepts, proved remedies, anatomical memoranda etc. Amongst his prose works, after the great Qanun, the treatise on cardiac drugs, of which the British Museum possesses several fine manuscripts, is probably the most important, but it remains unpublished.

The Qanun is, of course, by far the largest, most famous and most important of Ibn Sina's works. The work contains about one million words and like most Arabic books, is elaborately divided and subdivided. The main division is into five books, of which the first deals with general principles; the second with simple drugs arranged alphabetically; the third with diseases of particular organs and members of the body from the head to the foot; the fourth with diseases which though local in their inception spread to other parts of the body, such as fevers and the fifth with compound medicines.

The Qanun distinguishes mediastinitis from pleurisy and recognises the contagious nature of phthisis (tuberculosis of the lung) and the spread of disease by water and soil. It gives a scientific diagnosis of ankylostomiasis and attributes the condition to an intestinal worm. The Qanun points out the importance of dietetics, the influence of climate and environment on health and the surgical use of oral anaesthetics. Ibn Sina advised surgeons to treat cancer in its earliest stages, ensuring the removal of all the diseased tissue. The Qanun's materia medica considers some 760 drugs, with comments on their application and effectiveness. He recommended the testing of a new drug on animals and humans prior to general use.

Ibn Sina noted the close relationship between emotions and the physical condition and felt that music had a definite physical and psychological effect on patients. Of the many psychological disorders that he described in the Qanun, one is of unusual interest: love sickness! ibn Sina is reputed to have diagnosed this condition in a Prince in Jurjan who lay sick and whose malady had baffled local doctors. Ibn Sina noted a fluttering in the Prince's pulse when the address and name of his beloved were mentioned. The great doctor had a simple remedy: unite the sufferer with the beloved.

The Arabic text of the Qanun was published in Rome in 1593 and was therefore one of the earliest Arabic books to see print. It was translated into Latin by Gerard of Cremona in the 12th century. This 'Canon', with its encyclopaedic content, its systematic arrangement and philosophical plan, soon worked its way into a position of pre-eminence in the medical literature of the age displacing the works of Galen, al-Razi and al-Majusi, and becoming the text book for medical education in the schools of Europe.

In the last 30 years of the 15th century it passed through 15 Latin editions and one Hebrew. In recent years, a partial translation into English was made. From the 12th-17th century, the Qanun served as the chief guide to Medical Science in the West and is said to have influenced Leonardo da Vinci. In the words of Dr. William Osler, the Qanun has remained "a medical bible for a longer time than any other work".

Despite such glorious tributes to his work, Ibn Sina is rarely remembered in the West today and his fundamental contributions to Medicine and the European reawakening goes largely unrecognised. However, in the museum at Bukhara, there are displays showing many of his writings, surgical instruments from the period and paintings of patients undergoing treatment. An impressive monument to the life and works of the man who became known as the 'doctor of doctors' still stands outside Bukhara museum and his portrait hangs in the Hall of the Faculty of Medicine in the University of Paris.


Selected References:

1. Edward G. Browne (1921) Arabian Medicine, London, Cambridge University Press.
2. Ynez Viole O'Neill (1973) in Mcgraw-Hill Encyclopaedia of World Biography vol I: Aalto to Bizet.
3. Philip K. Hitti (1970) History of the Arabs, 10th ed, London, Macmillan, pp 367-368
4. M.A. Martin (1983) in The Genius of Arab Civilisation, 2nd ed, Edited by J.R. Hayes, London, Eurabia Puplishing, pp 196-7
   

Copyright © Dr Monzur Ahmed

Source: www.ummah.net