CHAPTER 77 • BASKETBALL 467and help prevent tooth fracture, jaw injury, and even
neck injury. Custom molded guards are inexpensive
and preferable to off-the-shelf products.- Dental literature reports injury rates from 4 to 14%,
more occurring in males than females. Most dental
trauma occurs to the upper anterior teeth, especially
the upper lip and two central incisors. The highest
injury rates are in young participants aged 8–15 years
(Amy, 1996). - Mouthguards and protective eyewear have been
shown reduce rates of injury (Zagelbaum et al, 1995;
Kerr, 1986).
SPINE AND PELVIS
- Back injuries make up more than 5.3% of all basket-
ball injuries (McKay et al, 2001). - The dynamic nature of basketball including fast
changes in direction, repetitive jumping, twisting,
rapid starts and stops, high velocity, and overhead arm
use produces significant strain on the spine. The ver-
tebral column and intervertebral discs carry 70% of
forces and the posterior spine transmits 30%. - Muscles of the spine and abdominal wall serve as
strong stabilizers and create significant motion.
Muscular strain resulting in pain and local inflamma-
tion is common. Muscular trigger points are another
source of pain in athletes and should be treated with
stretching, strengthening, direct massage. If this fails
to produce results, nonsteroidal anti-inflammatory
drugs(NSAIDs) can be utilized for general muscle
inflammation as well as local treatment with acupunc-
ture or injection with saline, local anesthetics, or cor-
ticosteroids. - Cervical injury from acceleration/deceleration injuries
(whiplash) occur in basketball but are less severe than
other contact sports. Pain and muscular dysfunction
are common but radicular symptoms can be a warning
of more significant injury. Treatment includes relative
rest, motion and strength exercises, NSAIDs, ice, heat,
and modalities. If pain persists consider facet dysfunc-
tion or intervertebral disc degeneration. - Basketball typically involves repetitive extension and
hyperextension from rebounding, guarding oppo-
nents, and shooting. This can lead to excessive forces
on the lumbar spine and injury. Defects of the poste-
rior portions of the vertebra can lead to significant
low back pain exacerbated by extension and axial
loading. - Spondylolysis is the presence of a defect in the pars
interarticularis from any etiology including congenital
defects, chronic stress, or acute fracture. This is the
most common source of back pain in people under age
26 (Borenstein and Boden, 1995). Symptoms include
low back pain with radiation into buttock and ham-
strings from resulting spasm. Pain is worse with
standing and back extension and there is an absence of
radicular pain. Treatment involves back strengthening
with a focus on flexion exercises, avoidance of back
extension that produces pain, and analgesia as needed.
Radiographs for suspected patients are indicated and
may need to be repeated if symptoms persist to detect
any instability of the spine.- Spondylolisthesis is the resulting anterior–posterior
subluxation of the one vertebra on another when
bilateral defects occur. Slippage greater than 50%
may need surgical attention. Otherwise treat patients
conservatively with exercise and follow them closely
for development of symptoms of nerve root impinge-
ment or spinal stenosis. Many athletes can return to
basketball after aggressive strengthening and reha-
bilitation. - Sacroiliac(SI) dysfunction is commonly seen, misdi-
agnosed, and treated as muscular low back pain and
athletes fail to improve significantly. Patients usually
cannot find any comfortable position for more than
10–15 min and have pain radiating into the posterior
thigh. Pain is worse with motion that involves com-
bined back flexion/extension and trunk rotation.
Physical examination with focused attention to palpa-
tion of SI joints and functional testing (Faber’s test,
Gaenslen’s test, Gillet’s test, Trendelenberg’s test) will
allow identification and more appropriate treatment.
UPPER EXTREMITY- There are relatively few upper extremity injuries in
basketball due to the nature of the sport. In high
school players, 10 to 12% of all basketball injuries
occur to the hand and wrist and 2–4% occur to the
shoulder. In recreational athletes 39% of all injuries
involve the upper extremity. - The most common upper extremity injuries are
sprains and dislocations of the proximal interpha-
langeal (PIP) joints of the finger (Wilson, 1993;
Zvijac, 1996).
LOWER EXTREMITY•Lower extremity injuries account for the majority at
every level of competition. Lower extremity injuries
account for 51% in recreational players (Kingma,
1998), between 56 and 69% in high school athletes
(Gomez and Farney, 1996; Messina and DeLee, 1999;
Powell, 2000).