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Psychiatry, the law and the death
penalty
Complex congenital heart patients
live longer, need new treatment paradigm
Et cetera
Molecule linked to immune attack
Yale to lead stroke study
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Psychiatry, the law
and the death penalty
For more than 30 years a Yale program has examined the interface of
law and psychiatry.
Although death penalty decisions are always controversial, the case of
convicted serial murderer Michael B. Ross has proven to be one of the
most complex legal battles seen in Connecticut in recent years. Ross,
who was found guilty of murdering six young women in the early 1980s,
was sentenced to death 18 years ago. Since then, a series of appeals,
hearings and overturned decisions has involved not only the courts but
also two of Yale’s forensic psychiatrists. Howard V. Zonana, M.D.,
professor of psychiatry, interviewed Ross before his 1987 trial, and Michael
A. Norko, M.D., associate clinical professor of psychiatry, evaluated
Ross in 1995, in 2004 and again in March when Ross attempted to waive
his right to appeal. Norko found no evidence that Ross suffered from “death
row syndrome” or that he was incompetent to waive his right to appeal.
Ross was executed on Friday, May 13.
The Ross case is one of about 1,000 consultations for court cases both
local and national that the Law and Psychiatry Division at the School
of Medicine tackles each year. What began in 1973 as an elective for residents
examining the interface between law and psychiatry has grown into a division
of five units and 23 staff members that offers a one-year fellowship in
forensic psychiatry, as well as courses for psychiatric residents.
“Forensic psychiatry is defined as the use of psychiatric expertise
to aid in the resolution of legal problems, and it also deals with patients
in settings like prisons, where there are special needs that have to be
accounted for,” explained Zonana, who directs the division.
That definition brings forensic psychiatrists into the courtroom as well
as the clinic. They consult on everything from insanity defenses to the
termination of parental rights. As part of their training, law and psychiatry
fellows rotate through various settings: they work with law students in
the Jerome N. Frank Legal Services Organization, they see the victim’s
perspective through postings with the state’s attorney and they
may work in the federal public defender’s office or at the Connecticut
Juvenile Training School run by the Department of Children and Families.
The division also contracts with the state of Connecticut to evaluate
the competency of defendants in the New Haven region to stand trial—almost
200 cases a year. Under close faculty supervision, residents conduct evaluations,
write reports and testify in court.
“We try to get them to approach each case from an objective, critical
viewpoint, which may be different from the objective in clinical work,
where you’re trying to establish a rapport with the patient,”
said Norko. “In forensic psychiatry that’s not necessarily
the goal, because the outcome of your evaluation may or may not be helpful
to the person.”
On a broader scale, the division frequently examines legal issues such
as a statute on the competency of juveniles to stand trial or the legal
regulation of psychiatry. “Psychiatry is the most legally regulated
subspecialty in medicine because of the fact that we can detain people
against their will,” explained Zonana. The division also created
a jail diversion project in 1995 that places a clinician in the court
to assess defendants charged with drug-related misdemeanors and develop
treatment plans as alternatives to incarceration. Thanks to the success
of the project, the Connecticut legislature has since expanded it to all
lower criminal state courts.
“It’s a very diverse program, which I think is probably one
of our biggest strengths,” said Norko, who is the division’s
deputy training director. “The other is that we make a conscious
effort to present more than one viewpoint about how forensic psychiatry
should be done.”
—Jill Max
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Complex congenital
heart patients live longer, need new treatment paradigm
“Sometime in the next decade,” said James C. Perry, M.D.,
professor of pediatrics (cardiology) and chief of the Section of Pediatric
Cardiology, “there will be, for the first time, more people over
18 living with congenital heart disease than people under 18.”
Congenital heart disease (CHD), the most common of birth defects, affects
0.8 percent of all live births in any given year in the United States.
Thanks to advances in surgical and medical management techniques for treating
children born with structural abnormalities of the heart, many children
for whom CHD would once have been an early death sentence can now expect
to live well into adulthood.
That fact underlies the work of the Yale-New Haven Adult Congenital Heart
Program, the first of its kind in Connecticut and one of only two dozen
in the country. The outpatient clinic is staffed by Perry and coordinator
Nicole K. Boramanand, A.P.R.N. ’99, and the program provides a collaborative
and multidisciplinary approach to monitoring and treating adult survivors
of pediatric CHD. The most common problems experienced by these patients
are arrhythmias and heart failure.
“Pediatric heart patients in the past were often discharged from
pediatric care based on age, but adult cardiologists are not usually trained
to manage congenital heart disease. Those patients had nowhere to go,”
Perry said. “Our program offers access to pediatric and adult cardiologists,
heart failure specialists, pulmonologists, transplant specialists, specialists
in high-risk obstetrics and other medical staff with essential expertise.”
Patient education is also critical. “Our focus is on preventive
maintenance,” Boramanand said. “What treatments and lifestyle
adjustments can increase the length and quality of life? For instance,
we emphasize to our patients that the old notion that all people with
adult CHD should avoid exercise is no longer accepted.”
Boramanand notes that another aspect of education and prevention is obtaining
extensive diagnostic information up front. “If we get readings early
and track them regularly, we can see situations that may require treatment.”
Perry points out that individuals who survive into adulthood with CHD
also experience the full range of health concerns, from catching the flu
to developing arthritis to managing pregnancy and childbirth, and notes
that the center helps clinicians learn more about this population.
As of this spring the Yale-New Haven Adult Congenital Heart Program, which
began in July of 2004, had seen nearly 100 patients ranging in age from
17 to their late 50s. “Life expectancies vary,” said Perry,
“and this is a group of patients we are just beginning to learn
about. But to see people with complex congenital heart defects going strong
into middle age is remarkable.”
—Rhea Hirshman
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et cetera
Molecule linked to immune attack
A Yale scientist has found that blocking a key molecule protects implants,
pacemakers, artificial joints and other foreign biomaterials from attack
by the immune system.
“Implantation of biomaterials, devices, and tissue-engineered constructs
into tissues causes the development of a foreign-body reaction that can
lead to implant failure,” said Themis R. Kyriakides, Ph.D., assistant
professor of pathology and biomedical engineering, a member of the interdepartmental
program in Vascular Biology and Transplantation and lead author of a study
published in December in The American Journal of Pathology.
Kyriakides and his team focused on areas where tissue and implants meet
and foreign body giant cells form. In studies with mice, the team genetically
eliminated the molecule, CC chemokine ligand 2 (CCL2), or blocked its
action with decoy proteins.
The success of the experiments with mice opens up the possibility of finding
targets for drugs to sustain implants.
—John Curtis
Yale to lead stroke study
The School of Medicine will lead a $33 million trial to examine a novel
approach for preventing stroke—the Insulin Resistance Intervention
after Stroke (IRIS) trial. Sponsored by the National Institute of Neurological
Disorders and Stroke, the IRIS trial will test the effectiveness of reducing
insulin resistance with pioglitazone, compared with placebo, for preventing
recurrent stroke and myocardial infarction among nondiabetic stroke patients
with a recent ischemic stroke and insulin resistance.
“This is the first trial that will look at the effect of this drug
specifically to prevent clinically significant vascular events in nondiabetic
patients,” said principal investigator Walter N. Kernan, M.D., associate
professor of medicine.
Researchers at Yale designed the study and will coordinate its conduct
at more than 60 research sites in the United States and Canada, recruiting
more than 3,000 nondiabetic men and women over 45 who have insulin resistance
and have had a recent ischemic stroke.
—J.C.
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