Showing posts with label University of Padua. Show all posts
Showing posts with label University of Padua. Show all posts

10 April 2020

Jacopo Mazzoni – philosopher

Brilliant scholar could recite long passages from Dante


Jacopo Mazzoni was known for literary criticism as well as philosophy
Jacopo Mazzoni was known for literary
criticism as well as philosophy
Jacopo Mazzoni, a University professor with a phenomenal memory who was a friend of Galileo Galilei, died on this day in 1598 in Ferrara in Emilia-Romagna.

Mazzoni, also sometimes referred to as Giacomo Mazzoni, was regarded as one of the most eminent scholars of his period. His excellent powers of recall made him adept at recalling passages from Dante, Lucretius, Virgil and other writers during his regular debates with prominent academics. He relished taking part in memory contests, which he usually won.

Mazzoni was born in Cesena in Emilia-Romagna in 1548 and was educated at Bologna in Hebrew, Greek, Latin, rhetoric and poetics. He later attended the University of Padua where he studied philosophy and jurisprudence.

He became an authority on ancient languages and philology and promoted the scientific study of the Italian language.

Galileo Galilei was a fellow professor at Pisa University
Galileo Galilei was a fellow
professor at Pisa University
Although Mazzoni wrote a major work on philosophy, he became well known for his works on literary criticism, in particular for his writing in defence of Dante’s Divine Comedy - Discorso in Difesa Della Commedia della Divina Poeta Dante - published in 1572 and Della Difesa Della Commedia di Dante, which was not published until 1688.

Mazzoni was also influenced by Plato and Aristotle and often made references to their works.

In turn, his theories about poetry influenced romantic writers who came later such as Samuel Taylor Coleridge and Friedrich von Schiller.

Mazzoni is also credited with helping to found the Accademia della Crusca, a society of scholars of Italian linguistics and philology, in 1583. The academy, in Florence, is the oldest linguistic academy in the world and the most important research institution into the Italian language.

The pala - shovel - given to Mazzoni by the Accademia della Crusca
The pala - shovel - given to Mazzoni
by the Accademia della Crusca
Crusca is the Italian word for bran, its use a reflection of the society's symbology, which likened 'good' language to flour sifted from bran.  The society's emblem was the frullone, a machine used to separate flour from bran. The operator would load bran into the machine using a pala - shovel - and the society extended the symbolism by presenting each member with a shovel bearing the member's name and a motto, usually a line of verse.

Mazzoni worked as a university professor, first at Macerata and then at Pisa, where he taught philosophy from 1588 to 1597. It was there he met Galileo, who was a young mathematics professor at the university. They became good friends and in May 1597, Galileo wrote Mazzoni a letter in which he commented on Mazzoni’s latest book, In universam Platonis et Aristotelis philosophiam praeludia, and also stated his inclination towards the Copernican system over the Ptolemaic one.

Later that year, Mazzoni accepted the chair in philosophy at Rome’s La Sapienza University.

He was asked to accompany Cardinal Pietro Aldobrandini on a mission to Venice in 1598. After they stopped off in Ferrara on the way back, Mazzoni was taken ill and later died. He was 57 years old.

The Rocca Malatestiana in Cesena, once a prison, now houses a museum of agriculture
The Rocca Malatestiana in Cesena, once a prison, now
houses a museum of agriculture
Travel tip:

Cesena, the birthplace of Jacopo Mazzoni, is a city in Emilia-Romagna, south of Ravenna and west of Rimini. One of the main sights in the town is the 15th century Biblioteca Malatestiana, which houses many valuable manuscripts and was the first public library in Europe. The library has been preserved in its 15th century condition and is now a listed UNESCO World Heritage site. The city’s castle, the Rocca Malatestiana, was used by Cesare Borgia as a prison during the Italian Wars and is now a museum.


The Castello Estense is the centrepiece of the city of Ferrara, where Mazzoni died
The Castello Estense is the centrepiece of the city
of Ferrara, where Mazzoni died
Travel tip:

Ferrara, where Jacopo Mazzoni died, is a city in Emilia-Romagna, about 50 km (31 miles) to the northeast of Bologna. It was ruled by the Este family between 1240 and 1598. Building work on the magnificent moated Este Castle (Castello Estense) in the centre of the city began in 1385 and the castle was added to and improved by successive rulers of Ferrara until the end of the Este line. The castle was purchased for 70,000 lire by the province of Ferrara in 1874 to be used as the headquarters of the Prefecture. You can still see Ferrara’s original narrow, medieval streets to the west and south of the city centre, between the main thoroughfares of Via Ripa Grande and Via Garibaldi. These were the original heart of the city in the middle ages before the Este family redesigned it.

Also on this day:

1726: The birth of physicist Giovanni Aldini

1886: The death of physician and politician Agostino Bertani

1926: Airship leaves Rome for the North Pole

1991: The Moby Prince disaster

(Picture credits - Mazzoni's shovel by Sailko CC-BY-3.0; Rocca Malatestiana by Otello Amaducci CC-BY-SA 3.0) 


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4 October 2019

Bernardino Ramazzini - physician

Pioneer in knowledge of occupational diseases, cancer and malaria


Ramazzini worked in medicine for more than half a century
Ramazzini worked in medicine
for more than half a century
The physician Bernardino Ramazzini, often described as the “father of occupational medicine” and responsible also for pioneering work in the study of cancer and the treatment of malaria, was born in Carpi in Emilia-Romagna on this day in 1633.

Ramazzini’s tour de force, which he completed at the age of 67, was his book De Morbis Artificum Diatriba - Discourse of the Diseases of Workers - which came to be regarded as a seminal work in his field, the lessons from which still influence practice today in the prevention and treatment of occupational diseases.

A student at the University of Parma, Ramazzini was appointed chair of theory of medicine at the University of Modena in 1682 and professor of medicine at the University of Padua from 1700 until his death in 1714.

It was while he was in Parma that he began to take an interest in diseases suffered by workers.

When he became a departmental head at Modena, he began to study the health problems of workers in a more systematic way.  He would visit their workplaces, observe the activities they undertook in their work and discuss their health problems with them.

Ramazzini could see that some diseases were attributable to the materials they worked with, including chemicals that would now be classified as hazardous, or the dangers posed by equipment.

The first page of the 1713 edition of Ramazzini's work on the study of occupational diseases
The first page of the 1713 edition of Ramazzini's work
on the study of occupational diseases
Where he was ahead of his time was in observation that other ailments common among workers appeared to be related to how they carried out their work, and whether it involved prolonged, violent, and irregular movements.

Ramazzini saw a relationship between certain disorders and the repetition of particular motions, or the lifting of heavy objects, but also noted that certain diseases appeared to be prevalent in workers whose environment restricted the amount of movement, such as sitting for long periods.

This research formed the basis of many of his lectures and he recommended to doctors treating sick patients that their diagnostic questions should include asking about the patient’s place of work.

Ultimately Ramazzini was able to group his findings in to four areas: occupations that require workers to handle minerals and metals or other raw materials extracted from the earth; workers exposed to air-borne toxins; workers exposed to fluids such as water, milk and alcoholic beverages; and workers whose jobs involved unnatural postures or positions held for long periods.

Ramazzini made important observations about cancer and malaria
Ramazzini made important observations
about cancer and malaria
He also emphasised, again displaying a level of understanding that was perhaps centuries ahead of his time, that other factors could be linked to the degree to which an individual’s working environment impacted his or her health, such as social status and lifestyle.

Ramazzini took 10 years to bring together all his observations in De Morbis Artificum Diatriba, which carried the authority of more than 40 years in medical practice.  He urged physicians to promote the thinking that prevention was as important in cure.

Away from occupational health, Ramazzini was one of the first to point science towards the role that hormones might play in the development of some cancers.  This was based on his observations that there was a virtual absence of cervical cancer among nuns, but a high incidence of breast cancer, which he postulated as possibly due to their abstinence from sexual activity.

He was also one of the first to support the use of quinine - found in the bark of the cinchona tree - as a treatment for malaria.

Ramazzini died in Padua in November, 1714.

The Castello del Pio on Piazza Martiri in Carpi, one of the largest public squares in Italy
The Castello del Pio on Piazza Martiri in Carpi, one of the
largest public squares in Italy
Travel tip:

Carpi, where Ramazzini was born, is situated about 18km (11 miles) north of Modena in the Padana plain. It became a wealthy town during the era of industrial development in Italy as a centre for textiles and mechanical engineering. Its historic centre, which features a town hall housed in a former castle, is based around the Renaissance square, the Piazza Martiri, the third largest square in Italy. Italy’s national marathon has finished in Carpi in 1988 in honour of another of the town’s famous sons, the marathon runner Dorando Pietri.

The Duomo and Palazzo Communale in Piazza Grande in the heart of Modena
The Duomo and Palazzo Communale in Piazza Grande
in the heart of Modena
Travel tip:

Modena, where Ramazzini spent part of his academic life, is a city on the south side of the Po Valley.  It is known for its car industry, as Ferrari, De Tomaso, Lamborghini, Pagani and Maserati have all been located there. The city is also well known for producing balsamic vinegar. Operatic tenor Luciano Pavarotti and soprano Mirella Freni were both born in Modena.  One of the main sights in Modena is the huge, baroque Ducal Palace, which was begun by Francesco I on the site of a former castle in 1635. His architect, Luigi Bartolomeo Avanzini, created a home for him that few European princes could match at the time. The palace is now home to the Italian national military academy.

Also on this day:

1657: The birth of Neapolitan painter Francesco Solimena

1720: The birth of print maker and architect Giovanni Battista Piranesi

The Feast of Saint Francis of Assisi


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11 March 2019

Franco Basaglia - psychiatrist

Work led to closure of mental hospitals by law


Franco Basaglia was destined for an academic career until the University of Padua deemed him too unconventional
Franco Basaglia was destined for an academic career until
the University of Padua deemed him too unconventional
The psychiatrist Franco Basaglia, whose work ultimately led to changes in the law that resulted in the closure and dismantling of Italy’s notorious psychiatric hospitals, was born on this day in 1924 in Venice.

As the founder of the Democratic Psychiatry movement and the main proponent of Law 180 - Italy's Mental Health Act of 1978 - which abolished mental hospitals, he is considered to be the most influential Italian psychiatrist of the 20th century.

His Law 180 - also known as Basaglia’s Law - had worldwide impact as other countries took up the Italian model and reformed their own way of dealing with the mentally ill.

Basaglia was born to a well-off family in the San Polo sestiere of Venice. He became an anti-Fascist in his teens and during the Second World War was an active member of the resistance in the city, to the extent that in December 1944, he was arrested and spent six months inside Venice’s grim Santa Maria Maggiore prison, being released only when the city was liberated in April of the following year.

He graduated in medicine and surgery from the University of Padua in 1949 and seemed destined for an academic career but after qualifying as a doctor in the field of ‘nervous and mental diseases’ and becoming an assistant professor he was deemed too unconventional for the tastes of the university hierarchy and told he should seek a career elsewhere.

Basaglia believed mental hospitals merely  reinforced the health problems of patients
Basaglia believed mental hospitals merely
reinforced the health problems of patients
As a result, Basaglia had to look for work and when he was appointed director of the provincial asylum in Gorizia, close to the border with Yugoslavia in northeastern Italy.

It was a grim job. Gorizia, 140km (87 miles) from Venice, was like a remote outpost and psychiatrists at the time regarded it as a sign of failure if they were forced to work in asylums. But Basaglia felt he had no choice.

In his studies he had already become convinced that the conventional methods for handling psychiatric patients needed to change and the post at Gorizia offered him the chance to put his ideas into practice.

On his first day in charge, he refused to sign the permits for the restraint of prisoners. He had soon introduced a requirement that doctors did not wear white coats and instead mingled freely with patients. Locked wards were opened, and the use of shackles and straitjackets was quickly outlawed.

He felt the traditional institutional response to psychiatric patients in distress, which revolved around physical abuse, forced restraint and appalling ‘punishments’, did nothing except reinforce the presumed ‘insanity’ of the victims.

Although he faced opposition from the older staff, he gradually replaced them with doctors he felt shared his views. Amid the tide of radical thinking that was sweeping Italy in the late 1960s, he published a book, L’istituzione negata - The Institution Denied - describing the methods being employed at Gorizia. It became a bestseller and a TV documentary based on the book made him famous.

Basaglia believed strongly in the rehabilitation of the victims of mental illness sufferers in the community
Basaglia believed strongly in the rehabilitation of the
victims of mental illness sufferers in the community
Occasionally, his determination to rehabilitate patients had tragic consequences. On at least two occasions, individuals he had allowed out of confinement committed murders. Basaglia was tried for manslaughter in both instances, and both times was cleared of the charge.

Basaglia left Gorizia in 1969, after which he a brief period in charge of the asylum in Colorno, near Parma, and six months in New York where he worked in a psychiatric hospital in Brooklyn. In 1971, he returned to Italy to be director of the San Giovanni psychiatric hospital in Trieste.

By then, other psychiatrists in Italy were putting Basaglia’s methods into practice and his ideas were acquiring political support. He repeated at the Trieste institution many of the measures that had proved successful in Gorizia, with the addition of such steps as launching co-operatives so that patients who were considered well enough could be re-integrated into the world of work. In 1977 he announced that the San Giovanni hospital was to close.

Soon afterwards, politicians successfully argued that a programme of closure should begin at psychiatric hospitals across the country.

Franca Ongaro continued Basaglia's work after his death
Franca Ongaro continued Basaglia's
work after his death
The Italian Parliament approved Law 180 on May 13, 1978, initiating the gradual dismantling of psychiatric hospitals, a process completed over the following 20 years.

In their place was to be a decentralised community service of treating and rehabilitating mental patients and preventing mental illness and promoting comprehensive treatment, particularly through services outside a hospital network. The emphasis in mental health moved from protecting society towards meeting the needs of patients.

Basaglia was described as a charismatic figure, so enthused about his work he would stay up all night talking with anyone who could match his intellectual stamina. He was also a heavy smoker. Sadly, by the time Basaglia’s Law came into force, he was suffering the effects of the brain tumour that would kill him.

He returned to San Polo, where he died in 1980 at the age of only 56. His wife, Franca Ongaro, who had worked with him on many of his books and essays, continued to work on his behalf after his death to ensure Basaglia’s Law was fully implemented.

The Basilica Maria Gloriosa dei Frari is one of the most notable churches in the San Polo sestiere of Venice
The Basilica Maria Gloriosa dei Frari is one of the
most notable churches in the San Polo sestiere of Venice
Travel tip:

San Polo, the smallest of the six Venice sestieri, is a vibrant district on the west side of the Grand Canal connected to the eastern side by the Rialto Bridge. The main sights include the Rialto Market, the 15th century Gothic church of San Polo and the imposing Basilica di Santa Maria Gloriosa dei Frari, usually just called the Frari, built in brick in the Venetian Gothic style and containing monuments to distinguished Venetians buried in the church, including a number of Doges and the painter Titian, who painted two large and important altarpieces that can be seen inside, the Assumption of the Virgin on the high altar and the Pesaro Madonna. where stalls sell fish, fruit and vegetables. The canalside Erbaria area has become a fashionable meeting place for aperitifs and cicchetti - the small snacks that are a kind of Venetian tapas.




The Piazza della Vittoria is the central square in the town of Gorizia, on the Italian border with Slovenia
The Piazza della Vittoria is the central square in the
town of Gorizia, on the Italian border with Slovenia
Travel tip:

Gorizia has the look of an historic Italian town but it has changed hands several times during its history, which is not surprising given its geographical location.  It sits literally on the border with Slovenia and, in fact, is part of a metropolitan area shared by the two countries, the section on the Slovenian side being now known as Nova Gorica. It has German, Slovenian, Friulian and Venetian influences, which can be experienced in particular in the local cuisine.

5 September 2018

Giacomo Zabarella – philosopher

Scholar devoted his life to explaining Aristotle’s ideas


Giacomo Zaberella: a portrait by an unknown artist kept at the Bodleian Libraries in Oxford
Giacomo Zaberella: a portrait by an unknown
artist kept at the Bodleian Libraries in Oxford
The leading representative of Renaissance Aristotelianism, Giacomo Zabarella, was born on this day in 1533 in Padua in the Veneto.

His ability to translate ancient Greek enabled him to understand the original texts written by Aristotle and he spent most of his life presenting what he considered to be the true meaning of the philosopher’s ideas.

He had been born into a noble Paduan family who arranged for him to receive a humanist education.

After entering the University of Padua he was taught by Francesco Robortello in the humanities, Bernardino Tomitano in logic, Marcantonio Genua in physics and metaphysics and Pietro Catena in mathematics. All were followers of Aristotle.

Zabarella obtained a Doctorate in Philosophy from the university in 1553 and was offered the Chair of Logic in 1564. He was promoted to the first extraordinary chair of natural philosophy in 1577.

Zabarella became well known for his writings on logic and methodology and spent his entire teaching career at the University of Padua.

The title page of Zabarella's book, Opera Logica, published in 1577
The title page of Zabarella's book,
Opera Logica, published in 1577
As an orthodox Aristotelian, he sought to defend the scientific status of theoretical natural philosophy against the pressures emanating from the practical disciplines such as the art of medicine and anatomy.

His knowledge of Greek enabled him to consult Greek commentators on Aristotle’s work as well as medieval writers.

Zabarella’s first published work was Opera Logica in 1577 and his commentary on Aristotle’s Posterior Analytics appeared in 1582.

He died in Padua at the age of 56 in 1589. His great work in natural philosophy, De rebus naturalibus, was published posthumously in 1590. It contained 30 treatises of Aristotelian natural philosophy and an introduction that he had written only weeks before his death. His two sons edited his incomplete commentaries on Aristotle’s texts and published them a few years later.

Zabarella’s works were reprinted in Germany early in the 17th century, where his brand of philosophy had a big following, especially among Protestant Aristolelians.

Palazzo del Bó is the main building of Padua University
Palazzo del Bò is the main building of Padua University
Travel tip:

The University of Padua was established in 1222 and is one of the oldest in the world, second in Italy only to the University of Bologna. The main university building, Palazzo del Bò in Via VIII Febbraio in the centre of Padua, used to house the medical faculty. You can take a guided tour to see the pulpit used by Galileo when he taught at the university between 1592 and 1610.


The Caffè Pedrocchi is just a few yards along Via VIII Febbraio from Palazzo del Bò
The Caffè Pedrocchi is just a few yards along Via VIII
Febbraio from Palazzo del Bò 
Travel tip:

Via VIII Febbraio commemorates the date and location of the struggle between Austrian soldiers and students and citizens of Padua, when both the University and the Caffè Pedrocchi became battlegrounds. The Padua rebellion was one of a series of revolts in Italy during 1848. The Austrians were seen as arrogant and aggressive and the ideas of Mazzini and Cavour about a united Italy were becoming popular with progressive thinkers. Students and professors at Padua University had been meeting at the University and in Caffè Pedrocchi to discuss their discontent. You can still see a hole in the wall of the White Room inside Caffè Pedrocchi made by a bullet fired by an Austro-Hungarian soldier at the students. The café has been a meeting place for students, intellectuals and writers for nearly 200 years. Founded by coffee maker Antonio Pedrocchi in 1831, it quickly became a centre for the Risorgimento movement and was popular with students because it was near Palazzo del Bò, the main university building.

More reading:

The philosopher who wrote the 'Manifesto of the Renaissance'

Why a renowned Aristotelian philosopher refused to look through Galileo's telescope

The philosopher with a Utopian dream to banish poverty

Also on this day:

1568: The birth of philosopher Tommaso Campanella

1970: The birth of Paralympian Francesca Porcellato


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25 August 2018

Galileo demonstrates potential of telescope

Scientist unveiled new instrument to Doge of Venice


How the Milanese artist Giuseppe Bertini imagined the scene as Galileo demonstrated his telescope to the Doge
How the Milanese artist Giuseppe Bertini imagined the
scene as Galileo demonstrated his telescope to the Doge
The scientist and inventor Galileo Galilei demonstrated the wonders of the telescope to an audience of Venetian lawmakers on this day in 1609.

The 90th Doge, Leonardo Donato, and other members of the Venetian senate accompanied Galileo to the top of the campanile of St Mark’s Basilica, where each took it in turn to look through the instrument.

The meeting had been arranged by Galileo’s friend, Paolo Sarpi, who was a scientist, lawyer and statesman employed by the Venetian government. The two were both professors at the University of Padua.

Galileo, whose knowledge of the universe led him to be called the ‘father of observational astronomy’, was for many years wrongly credited with the invention of the telescope when in fact the first to apply for a patent for the device was a Dutch eyeglass maker named Hans Lippershey.

However, Galileo’s work using uncertain details of Lippershey’s design certainly took the idea to a different level.

Like Galileo, Paolo Sarpi was a professor at the University of Padua
Like Galileo, Paolo Sarpi was a professor
at the University of Padua
Whereas Lippershey’s device magnified objects by about three times, Galileo eventually produced a telescope with a magnification factor of 30.

The one he demonstrated on August 25, 1609, is thought to have had a factor of about eight or nine.

Galileo was the first to realise the potential of the telescope for astronomical study.

He was able to make out mountains and craters on the moon, as well as a ribbon of diffuse light arching across the sky — the Milky Way.  Galileo also discovered the rings of Saturn, sunspots and four of Jupiter's moons.

It was his findings on Jupiter’s moons in January 1610 that would lead him indirectly into trouble with the Roman Inquisition over his belief in heliocentrism, the concept that the sun and not the Earth was the centre of the solar system, as had been theorised by the Polish scientist Nicolaus Copernicus in the previous century.

In observing the three objects in proximity to the planet Jupiter that he had originally thought to be distant stars, he noticed that their position relative to the planet changed in a way that would have been inexplicable if they had really been fixed stars.

One day he noticed that one of them had disappeared altogether only to reappear later and within a few days had concluded that they were orbiting Jupiter. When, later in the year, he discovered that the planet Venus had ‘phases’ similar to the earth’s Moon, when differences in appearance suggested different positions in the sky, he began to subscribe firmly to the Copernican theory.

This flew in the face of a major part of Roman Catholic belief, based on the Aristotelian principle that all heavenly bodies orbited the Earth.

In time, Galileo was found guilty of heresy and forced to recant his views under threat of torture. He would have spend the last years of his life in prison had the court not shown some clemency and commuted his sentence to house arrest.

The campanile of St Mark's is a famous landmark in Venice, towering over the basilica
The campanile of St Mark's is a famous landmark
in Venice, towering over the basilica
Travel tip:

The Campanile of St Mark’s has become one of the symbols of Venice, instantly recognisable as part of the landscape of St Mark’s Square - Piazza San Marco - standing away from the basilica itself. Constructed in the ninth century, one of its first uses was a watchtower or lighthouse. Over the centuries it has been restored and added to several times, often following regular lightning strikes.  It assumed its definitive shape in the 16th century with restorations made to repair damage caused by the earthquake of March 1511, when the belfry, attic and spire were added. The whole structure collapsed in 1902, a few days after a large crack appeared in the north wall, it is thought because of erosion of the foundations after almost 1,000 years, but was rebuilt over the following 10 years.

Travel tip:

Galileo lived under house arrest was Villa Gioella, a house he rented a couple of miles from the from the centre of Florence in the Arcetri hills.  In Galileo’s time it was a farmhouse, surrounded by many acres of land. The area is also home to the Arcetri Observatory, which was opened in 1872 after astronomers at La Specola Observatory, not far from the Pitti Palace, decided that pollution from artificial light was making clear images impossible.

More reading:

The father of modern science

Galileo Galilei convicted of heresy

How Niccolò Zucchi discovered the 'belts' around Jupiter

Also on this day:

The Feast Day of Saint Patricia of Naples

79AD: Vesuvius erupts


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19 July 2018

Cesare Cremonini - philosopher

Great thinker famous for Galileo ‘denial’


Cesare Cremonini was one of the most revered Aristotelian philosophers of his day
Cesare Cremonini was one of the most
revered Aristotelian philosophers of his day
The philosopher Cesare Cremonini, the contemporary and friend of Galileo Galilei who famously refused to look at the Moon through Galileo’s telescope, died on this day in 1631 in Padua.

Cremonini was considered one of the great thinkers of his time, a passionate advocate of the doctrines of the ancient Greek philosopher Aristotle. He was paid a handsome salary by his patron, Alfonso II d’Este, the Duke of Ferrara, and kings and princes regularly sought his counsel.

He struck up a friendship with the poet, Torquato Tasso, while he was studying in Ferrara, and met Galileo in 1550 after he was appointed by the Venetian Republic to the chair of the University of Padua.

The two built a relationship of respect and friendship that endured for many years, despite many differences of opinion, yet in 1610 their divergence of views on one subject created an impasse between them.

It came about when Galileo observed the surface of the Moon through his telescope and proclaimed that he had discovered mountains on the Moon.

But Cremonini said that Aristotle had proved that the Moon could only be a perfect sphere and was having none of Galileo’s claim that it was not true. Galileo invited him to look through the telescope and see for himself but Cremonini refused.

Cremonini first met Galileo in Padua in 1550
Cremonini first met Galileo
in Padua in 1550
It may be that Cremonini simply refused to countenance the idea that Aristotle’s assertion may have been wrong. An alternative theory is that he feared for the consequences if he aligned himself with Galileo.

The Tuscan polymath was already in trouble with the Roman Inquisition for stating his belief in heliocentrism - the idea that Earth and the other planets in the solar system revolve around the sun,  which contradicted the idea to which the Catholic Church subscribed - based on the wisdom of Aristotle - that the sun revolved around Earth as the centre of the universe.

Cremonini had himself been under the scrutiny of the Inquisition. Indeed, he had been charged with atheism and heresy for propagating Aristotle’s argument that the human soul was mortal. As a citizen of Padua, however, he was protected by the leniency of Venice and had been spared punishment.

It may be that he felt that if he had seen what Galileo saw with his own eyes he would have been obliged to argue in support of his friend and could land himself in trouble again.  Given that Galileo was threatened with being burned at the stake and was held under house arrest for the remainder of his life over his belief in heliocentrism, some may argue that Cremonini was wise not to get involved.

He also had genuine concerns for Galileo’s wellbeing, warning his friend that if he decided to move to Tuscany from Padua it would bring him under the Inquisition's jurisdiction.

Born in Cento, nowadays a town of around 35,000 residents about 35km (22 miles) southwest of Ferrara, Cremonini was chair of natural philosophy and chair of medicine at the University of Padua from 1591 until his death.

He died in 1631 when an outbreak of plague swept Padua. He was buried in the Benedictine monastery of St. Justina of Padua, to which he also willed his possessions.

Cento's 14th century castle, originally built by the Bishop of Bologna and enlarged by future pope Giulio della Rovere
Cento's 14th century castle, originally built by the Bishop
of Bologna and enlarged by future pope Giulio della Rovere
Travel tip:

Cento, which was part of the Papal States when Cremonini was born, is best known as the birthplace of the Baroque painter Giovanni Francesco Barbieri, better known as Guercino. The town’s main square, the place at which the four ancient roads into the town once converged, is called Piazza Guercino. Monuments around the square include the Palazzo del Governatore, which has a 17th century clock tower, and the Palazzo Comunale, built in 1612 but improved with the addition of an elegant facade in the 18th century. The town has an impressive castle, built in 1378.

Donatello's statue of the condottiero Gattamelata outside St Anthony's Basilica
Donatello's statue of the condottiero
Gattamelata outside St Anthony's Basilica
Travel tip:

Padua’s well-preserved medieval layout and artistic heritage attract many hundreds of thousands of visitors each year, although it is much quieter than Venice, which is only a little over 40km (25 miles) away.  The presence in the city of Giotto, Donatello and Mantegna support the claim that Padua was the capital of Italian art in the 15th and 16th centuries. The most famous example of Giotto’s work are the frescoes in the Scrovegni Chapel, there are works by Donatello in and outside the Basilica di Sant’Antonio, including the equestrian statue in front of the church, while there are restored frescoes by Mantegna in the Chiese degli Eremitani.

More reading:

Why the philosopher and scientist Galileo Galilei was convicted of heresy

The mysterious death of philosopher Giovanno Pico della Mirandola

How a simple friar laid some of the cornerstones of Western philosophy

Also on this day:

1249: The death of Jacopo Tiepolo, Doge of Venice

1374: The death of the scholar and poet Petrarch


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13 June 2018

Giovanni Antonio Magini – astronomer and cartographer

Scientist laboured to produce a comprehensive atlas of Italy


The cover of Magini's great work, which was published by his son in 1620
The cover of Magini's great work, which
was published by his son in 1620
Giovanni Antonio Magini, who dedicated his life to producing a detailed atlas of Italy, was born on this day in 1555 in Padua.

He also devised his own planetary theory consisting of 11 rotating spheres and invented calculating devices to help him work on the geometry of the sphere.

Magini was born in Padua and went to study philosophy in Bologna, receiving his doctorate in 1579. He then dedicated himself to astronomy and in 1582 wrote his Ephemerides coelestium motuum, a major treatise on the subject, which was translated into Italian the following year.

In 1588 Magini joined in the competition for the chair of mathematics at Bologna University and was chosen over Galileo because he was older and had more moderate views. He held the position for the rest of his life.

But his greatest achievement was the preparation of Italia, or the Atlante geografico d’Italia, which was printed posthumously by Magini’s son in 1620.

Although Italy as a state has existed only since 1861, the name Italia, referring to the southern part of the peninsula, may go back to the ancient Greeks. It appeared on coins thought to have been produced in the 1st century BC and was eventually applied to the whole of the peninsula. Magini’s atlas set out to include maps of every Italian region with exact names and historical notes.

Giovanni Antonio Magini
Giovanni Antonio Magini
It proved expensive to produce and Magini took on extra posts in order to fund it. These included working as mathematics tutor to the sons of Vincenzo I of Gonzaga, Duke of Mantua.

The atlas is dedicated to the duke, who assisted him with the project by arranging for maps of the many states of Italy to be brought to Magini.

The governments of Messina and Genoa also assisted him financially to help him produce the atlas.

Magini died in Bologna in 1617 and the lunar crater maginus was later named after him.

Giotto's brilliant frescoes cover the walls of the Scrovegni Chapel, one of the Italy's great artistic treasures
Giotto's brilliant frescoes cover the walls of the Scrovegni
Chapel, one of the Italy's great artistic treasures
Travel tip:

Padua in the Veneto, where Magini was born, is one of the most important centres for art in Italy and home to the country’s second oldest university. Padua has become acknowledged as the birthplace of modern art because of the Scrovegni Chapel, the inside of which is covered with frescoes by Giotto, an artistic genius who was the first to paint people with realistic facial expressions showing emotion. At Palazzo Bo in the centre of the city, where Padua’s university was founded in 1222, you can still see the original lectern used by Galileo and the world’s first anatomy theatre, where dissections were secretly carried out from 1594.

The courtyard of the Archiginnasio, the oldest surviving building of the University of Bologna
The courtyard of the Archiginnasio, the oldest surviving
building of the University of Bologna
Travel tip:

Bologna University, where Magini occupied the chair in Mathematics, was founded in 1088 and is the oldest university in the world. The oldest surviving building, the Archiginnasio, is now a library and is open Monday to Friday from 9 am to 7 pm, and on Saturdays from 9 am to 2 pm. It is a short walk away from Piazza Maggiore and the Basilica di San Petronio in the centre of the city.

Also on this day:

The feast of St Anthony of Padua

2000: Mehmet Ali Agca, the gunman who tried to kill Pope John Paul II, is granted a state pardon by the Italian government

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20 May 2018

Hieronymus Fabricius - anatomist and surgeon

Research pioneer known as “Father of Embryology”


Girolamo Fabrizio spent much of his academic life at the University of Padua
Girolamo Fabrizio spent much of his academic
life at the University of Padua
The pioneering anatomist and physiologist known in academic history as Hieronymus Fabricius, whose Italian name was Girolamo Fabrizio, was born on this day in 1537 in Acquapendente, in Lazio.

Fabrizio, who designed the first permanent theatre for public anatomical dissections, advanced the knowledge of the make-up of the human body in many areas, including the digestive system, the eyes and ears, and the veins.

But his most significant discoveries were in embryology.  He investigated the foetal development of many animals and humans and produced the first detailed description of the placenta. For this he became known as the "Father of Embryology".

Fabrizio spent most of his life at the University of Padua, where he was a student under the guidance of Gabriele Falloppio, who discovered the tube connecting the ovaries with the uterus that became known as the Fallopian tube.

He succeeded Falloppio as chair of surgery and anatomy, holding the post from 1562 to 1613 and building a reputation that attracted students from all of Europe.

Among his pupils were the English anatomist William Harvey, as well as Giulio Casseri and Adriaan van den Spiegel, both of whom went on to become significant anatomists in Italy. Indeed, both also occupied the chair of surgery and anatomy at the University of Padua.

The Teatro Anatomico at the University of Padua was designed by Girolamo Fabrizio
The Teatro Anatomico at the University of Padua was
designed by Girolamo Fabrizio
Fabrizio’s dissections of animals enabled him to make discoveries about the formation of the fetus, the structure of the esophagus, stomach and intestines, and the workings of the eye, the ear, and the larynx. He was the first to note that the pupil of the eye changes in size.

He was the first to identify the membranous folds that he called "valves" in the interior of veins, which are now understood to prevent retrograde flow of blood within them.

Fabrizio also described the cerebral fissure separating the temporal lobe from the frontal lobe of the brain, although it is only recently that he has been credited with the discovery.

The statue of Girolamo Fabrizio in his home town of Acquapendente
The statue of Girolamo Fabrizio in
his home town of Acquapendente
He was a practising surgeon as well as an anatomist. Extraordinarily, the technique he invented to perform a tracheotomy is very similar to the procedure used in the operation today.

Fabrizio never actually performed such an operation himself, but in his writing he described using a vertical incision and a tracheostomy tube, a short, straight cannula to which he added wings to prevent the tube from disappearing into the trachea.

The technique may have been used for the first time by the surgeon Marco Aurelio Severino during a diptheria epidemic in Naples in 1610.

Fabrizio died in Padua in 1619 at the age of 82. There is a monument to him in his home town of Acquapendente.

The castle at Torre Alfina, near Acquapendente
The castle at Torre Alfina, near Acquapendente
Travel tip:

Acquapendente is a medieval town in northern Lazio, about 140km (87 miles) north of Rome, just under 30km (18 miles) west of Orvieto. It takes its name - literally translated as ‘hanging water’ - from the small waterfalls that flow into the Paglia river. Among the main sights is the Duomo di Acquapendente, which developed from a former Benedictine monastery, developed in the 12th century. A short distance from Acquapendente is he castle of Torre Alfina, the central tower of which was built by the Lombard king Desiderius.

Palazzo Bo, the historic home of the University of Padua
Palazzo Bo, the historic home of the University of Padua
Travel tip:

The founding of the University of Padua is officially recorded to have taken place in 1222 but this was actually the first time it was mentioned in an historical document, which means it is certainly older. It was formed when a large group of students and professors left the University of Bologna in search of more academic freedom. The first subjects to be taught were law and theology.

Also on this day:

1470: The birth of the poet Pietro Bembo, lover of Lucrezia Borgia

1943: The birth of the veteran singer Al Bano

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25 February 2018

Giovanni Battista Morgagni - anatomist

The father of modern pathological anatomy


Giovanni Battista Morgagni taught at the  University of Padua for 56 years
Giovanni Battista Morgagni taught at the
University of Padua for 56 years
Anatomist Giovanni Battista Morgagni, who is credited with turning pathology into a science, was born on this day in 1682 in Forlì in Emilia-Romagna.

Morgagni was professor of Anatomy at the University of Padua for 56 years and taught thousands of medical students during his time there.

He was sent by his parents to study philosophy and medicine at the University of Bologna when he was 18 and he graduated as a doctor from both faculties.

In 1706 he published his work, Adversaria Anatomica, which was to be the first volume of a series and helped him become known throughout Europe as an accurate anatomist.

He succeeded to the chair of theoretical medicine at the University of Padua in 1712 and was to teach medicine there until his death in 1771.

Morgagni was promoted to the chair of anatomy after his first three years in Padua, following in the footsteps of many illustrious scholars. He brought out five more volumes of his Adversaria Anatomica during his early years in Padua.

Morgagni's Adversaria Anatomica helped establish his reputation
Morgagni's Adversaria Anatomica helped
establish his reputation
In 1761, when he was nearly 80, he brought out the work that was to make pathological anatomy into a science – De Sedibus et causis morborum per anotomem indagatis (Of the seats and cause of diseases investigated through anatomy). This work, which contained the records of 646 dissections, was later reprinted several times in its original Latin and translated into French, English and German.

Morgagni was the first anatomist to understand and to demonstrate the absolute necessity of basing diagnosis, prognosis and treatment on an exact and comprehensive knowledge of anatomical conditions. His precision, thoroughness and freedom from bias are modern scientific qualities and he was also a widely respected clinician who maintained an active practice. His treatise was to lead to steady progress in pathology and practical medicine.

Morgagni had married a noble lady from Forlì during his early years in Padua who bore him three sons and 12 daughters. He died at the age of 89 in Padua.

He is today regarded as the father of modern pathological anatomy as his works helped to make it into an exact science.

Forlì's Palazzo Poste e Telegrafi in Piazza Saffi
Forlì's Palazzo Poste e Telegrafi in Piazza Saffi
Travel tip:

Forlì, where Morgagni was born, is today a prosperous city with a beautiful main square, Piazza Saffi, named after Aurelio Saffi, a radical republican who was a prominent figure in the Risorgimento. The square is dominated by the monumental Palazzo Poste e Telegrafi, designed by Cesare Bazzani in 1932 to celebrate the Fascist regime. Benito Mussolini was born in nearby Predappio and blatantly favoured the area of his birth with imposing new buildings.


Palazzo del Bò in the centre of the city is the main building of the University of Padua
Palazzo del Bò in the centre of the city is the
main building of the University of Padua
Travel tip:

The University of Padua, where Morgagni taught for most of his life, was established in 1222 and is one of the oldest in the world, second in Italy only to the University of Bologna. The main university building, Palazzo del Bò in Via VIII Febbraio in the centre of Padua, used to house the medical faculty. You can take a guided tour to see the pulpit used by Galileo when he taught at the university between 1592 and 1610.


More reading:

Paolo Mascagni, the first physician to map the human lymphatic system

How Gabriele Falloppio made key discoveries about human reproduction

Hieronymus Fabricius, the father of embyology



9 October 2017

Gabriele Falloppio – anatomist and physician

Professor made key discoveries about human reproduction   


Gabriele Falloppio advanced knowledge of medicine significantly
Gabriele Falloppio advanced knowledge
of medicine significantly
Gabriele Falloppio, one of the most important physicians and anatomists of the 16th century, died on this day in 1562 in Padua.

Often known by his Latin name Fallopius, he lived only 39 years yet made his mark with a series of discoveries that expanded medical knowledge significantly.

He worked mainly on the anatomy of the head and the reproductive organs in both sexes and is best known for identifying the tubes that connect the ovaries to the uterus, which are known even today as Fallopian tubes.

He also discovered several major nerves of the head and face, and identified many of the components of the hearing and balance systems.

Falloppio described all of the findings of his research in a book published a year before he died, entitled Observationes anatomicae.

Educated initially in the classics, the death of his father plunged his family – noble but not wealthy – into financial difficulties, prompting him to pursue the security of a career in the church, becoming a priest in 1542. He served as a canon at the cathedral in his native Modena.

Falloppio retained an ambition to study medicine, however, and when the family’s finances had improved sufficiently he enrolled at the University of Ferrara, which at the time had one of the best medical schools in Europe.

A painting shows Falloppio (left) explaining one of his  discoveries to the Cardinal Duke of Ferrara and other clergy
A painting shows Falloppio (left) explaining one of his
discoveries to the Cardinal Duke of Ferrara and other clergy
He studied under Antonio Musa Brassavolo, who at the time was one of the most eminent physicians in Europe, with a list of illustrious clients that included King Henry VIII of England, Holy Roman Emperor Charles V, the French king Francis I and a succession of popes.

After receiving his doctorate in medicine, he worked at various medical schools before becoming professor of anatomy at Ferrara in 1548.  A year later, he was invited to occupy the chair of anatomy at the University of Pisa.

Falloppio gained much of his knowledge from dissecting cadavars, not only those of adult humans but children and animals.  During his time at Pisa he was falsely accused of human vivisection, but despite the cloud this cast over him he was appointed to the prestigious chair of anatomy at the University of Padua, where he would remain until his death from tuberculosis.

The Flemish anatomist Andreas Vesalius was among his predecessors in the Padua chair.  It was the work of Vesalius that prompted a surge of interest in dissections and probably inspired Falloppio, who studied the observations of his predecessor in great detail and sought to build on them.

The title page of Falloppio's book of Anatomical Observations
 The title page of Falloppio's book
of Anatomical Observations
Despite his short working life, he left an enormous legacy of research.

He carried out investigations on the larynx and on respiration, and made important discoveries about bone growth. He described the ethmoid bone, the lacrimal duct, and his description of the middle and inner ear includes the first clear account of the round and oval windows, the cochlea, the semi-circular canals, and the scala vestibuli and tympani.

In the area of reproduction, as well as being the first to identify the Fallopian tubes, he proved the existence of the hymen in virgins, gave names to many features of the reproductive anatomy and disproved many popular notions about the mechanics of the reproductive process.

He can also be credited with inventing one of the earliest condoms, a sheath made from linen soaked in a medicinal chemical to be worn to protect the wearer from contracting syphilis.

Falloppio published two treatises on ulcers and tumors, a treatise on surgery, and a commentary on Hippocrates's book on wounds of the head.  He also researched the science of baths and thermal waters and of purgatives, and put forward important theories about the formation of fossils.

The anatomical theatre at the University of Padua
The anatomical theatre at the University of Padua
Travel tip:

The University of Padua includes nine museums, a botanical garden – best visited in the spring and summer – and the oldest surviving permanent anatomical theatre in Europe, built in around 1595 and which used to hold public dissections, which attracted scientists and artists in large numbers, keen to enhance their knowledge of the human body.

Statues line the canal in the elliptical Prato della Valle
Statues line the canal in the elliptical Prato della Valle
Travel tip:

The city of Padua, situated in the Veneto a 30-45 minute train ride from Venice and an hour and a half from the international airport at Treviso, is most famous for the Giotto frescoes at the Scrovegni Chapel and for the Basilica of St Anthony of Padua. Both attract thousands of visitors and the Scrovegni Chapel requires advance booking.  The city itself is an attractive place to explore, with a wealth of fine, historic buildings to discover along its pleasant arcaded streets, as well as the beautiful Prato della Valle, the 90,000-square metre elliptical square with an island in its centre surrounded by a canal bordered by 78 statues.