Rare conjoined twins have been separated at a hospital in London, surgeons have announced.
Two-year-old sisters Safa and Marwa Ullah, from Charsadda in Pakistan, underwent three major operations to separate their heads at Great Ormond Street.
The first operation took place in October 2018, when the girls were 19 months old.
The last operation, which saw them finally separated, was carried out on 11 February this year.
The girls, who were born by Caesarean section, were craniopagus twins, with their skulls and blood vessels fused together.
The hospital has previously successfully separated craniopagus twins in 2006 and 2011.
In order to ensure the operations went smoothly, experts used virtual reality to create an exact replica of the girls' anatomy.
This enabled surgeons to visualise the complex structure of their skulls as well as the positioning of their brains and blood vessels.
A team also used 3D printing to create plastic models of the structures that could be used for practice.
Cutting guides were created so that surgeons could work more precisely.
During the surgery, doctors first worked to separate the girls' blood vessels and then inserted a piece of plastic into their heads to keep the brains and blood vessels apart.
The final major operation involved medics building new skulls using the girls' own bone.
They also used tissue expanders to ensure the girls' own skin would stretch over the top of each of their heads.
The surgery, which was paid for by a private donor, has been followed by several smaller procedures to enable the girls to live independent lives.
Planning Safa and Marwa's separation demanded the very best scanning equipment. Here, neuroradiologist Dr Kshitij Mankad shows us the scans his team produced that made all the difference to the twin’s successful treatment. https://t.co/aKrOCMGu3q 🔍 pic.twitter.com/dHuP5nVg2d— Great Ormond Street Hospital (@GreatOrmondSt) July 15, 2019
The operations added up to more than 50 hours of surgery time and involved 100 members of staff from Great Ormond Street.
The girls' mother, Zainab Bibi, 34, said: "We are indebted to the hospital and to the staff and we would like to thank them for everything they have done.
"We are extremely excited about the future."
The girls, whose father has died, were discharged from the hospital on 1 July and moved to a London address with their mother, grandfather Mohammad Sadat, 57, and an uncle.
The twins are now undergoing daily physiotherapy as part of their ongoing rehabilitation.
The future looks bright for both Safa and Marwa. After their final surgery, they began their recuperation at @GreatOrmondSt – here they are enjoying 'Twinkle, Twinkle, Little Star' during a playful physio session! https://t.co/aKrOCMGu3q 🌟🌟 pic.twitter.com/fk3jKbpukr— Great Ormond Street Hospital (@GreatOrmondSt) July 15, 2019
Neurosurgeon Noor ul Owase Jeelani and craniofacial surgeon Professor David Dunaway led the team that operated on the girls.
Mr Jeelani, a neurosurgeon at Great Ormond Street, and Professor Dunaway, head of the hospital's craniofacial unit, said in a statement: "We are delighted we have been able to help Safa and Marwa and their family.
"It has been a long and complex journey for them, and for the clinical team looking after them.
"From our personal point of view, it has been great to get to know the girls and their family.
"Their faith and determination have been so important in getting them through the challenges they have faced. We are incredibly proud of them.
"We are also incredibly proud of the team responsible for their treatment and care over the past ten months.
"From the surgical teams, scientists and engineers who helped us plan and perform the operations to the paediatricians, nursing staff, physiotherapists and occupational therapists, it has been a huge team effort and every single person has played a key part in helping Safa and Marwa."
Cecelia Carney, team leader of the hospital's neurosurgery theatre, said: "The intricacies of the series of surgical procedures were planned meticulously as a team."
Conjoined twins are very rare - affecting only about one in every 2.5 million births.